TWI817180B - Polyamide-based composite film and display device comprising same - Google Patents

Polyamide-based composite film and display device comprising same Download PDF

Info

Publication number
TWI817180B
TWI817180B TW110130717A TW110130717A TWI817180B TW I817180 B TWI817180 B TW I817180B TW 110130717 A TW110130717 A TW 110130717A TW 110130717 A TW110130717 A TW 110130717A TW I817180 B TWI817180 B TW I817180B
Authority
TW
Taiwan
Prior art keywords
polyamide
gloss
composite film
film
substituted
Prior art date
Application number
TW110130717A
Other languages
Chinese (zh)
Other versions
TW202212437A (en
Inventor
徐允喜
崔常勳
李辰雨
奇貞嬉
吳大成
金漢俊
金善煥
Original Assignee
南韓商愛思開邁克沃股份有限公司
南韓商愛思開邁克沃解決方案股份有限公司
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 南韓商愛思開邁克沃股份有限公司, 南韓商愛思開邁克沃解決方案股份有限公司 filed Critical 南韓商愛思開邁克沃股份有限公司
Publication of TW202212437A publication Critical patent/TW202212437A/en
Application granted granted Critical
Publication of TWI817180B publication Critical patent/TWI817180B/en

Links

Classifications

    • CCHEMISTRY; METALLURGY
    • C08ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
    • C08JWORKING-UP; GENERAL PROCESSES OF COMPOUNDING; AFTER-TREATMENT NOT COVERED BY SUBCLASSES C08B, C08C, C08F, C08G or C08H
    • C08J7/00Chemical treatment or coating of shaped articles made of macromolecular substances
    • C08J7/04Coating
    • C08J7/046Forming abrasion-resistant coatings; Forming surface-hardening coatings
    • CCHEMISTRY; METALLURGY
    • C08ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
    • C08JWORKING-UP; GENERAL PROCESSES OF COMPOUNDING; AFTER-TREATMENT NOT COVERED BY SUBCLASSES C08B, C08C, C08F, C08G or C08H
    • C08J5/00Manufacture of articles or shaped materials containing macromolecular substances
    • C08J5/18Manufacture of films or sheets
    • CCHEMISTRY; METALLURGY
    • C08ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
    • C08GMACROMOLECULAR COMPOUNDS OBTAINED OTHERWISE THAN BY REACTIONS ONLY INVOLVING UNSATURATED CARBON-TO-CARBON BONDS
    • C08G73/00Macromolecular compounds obtained by reactions forming a linkage containing nitrogen with or without oxygen or carbon in the main chain of the macromolecule, not provided for in groups C08G12/00 - C08G71/00
    • C08G73/06Polycondensates having nitrogen-containing heterocyclic rings in the main chain of the macromolecule
    • C08G73/10Polyimides; Polyester-imides; Polyamide-imides; Polyamide acids or similar polyimide precursors
    • C08G73/1003Preparatory processes
    • C08G73/1007Preparatory processes from tetracarboxylic acids or derivatives and diamines
    • CCHEMISTRY; METALLURGY
    • C08ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
    • C08GMACROMOLECULAR COMPOUNDS OBTAINED OTHERWISE THAN BY REACTIONS ONLY INVOLVING UNSATURATED CARBON-TO-CARBON BONDS
    • C08G69/00Macromolecular compounds obtained by reactions forming a carboxylic amide link in the main chain of the macromolecule
    • C08G69/02Polyamides derived from amino-carboxylic acids or from polyamines and polycarboxylic acids
    • C08G69/26Polyamides derived from amino-carboxylic acids or from polyamines and polycarboxylic acids derived from polyamines and polycarboxylic acids
    • C08G69/28Preparatory processes
    • CCHEMISTRY; METALLURGY
    • C08ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
    • C08GMACROMOLECULAR COMPOUNDS OBTAINED OTHERWISE THAN BY REACTIONS ONLY INVOLVING UNSATURATED CARBON-TO-CARBON BONDS
    • C08G73/00Macromolecular compounds obtained by reactions forming a linkage containing nitrogen with or without oxygen or carbon in the main chain of the macromolecule, not provided for in groups C08G12/00 - C08G71/00
    • C08G73/06Polycondensates having nitrogen-containing heterocyclic rings in the main chain of the macromolecule
    • C08G73/10Polyimides; Polyester-imides; Polyamide-imides; Polyamide acids or similar polyimide precursors
    • C08G73/14Polyamide-imides
    • CCHEMISTRY; METALLURGY
    • C08ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
    • C08JWORKING-UP; GENERAL PROCESSES OF COMPOUNDING; AFTER-TREATMENT NOT COVERED BY SUBCLASSES C08B, C08C, C08F, C08G or C08H
    • C08J7/00Chemical treatment or coating of shaped articles made of macromolecular substances
    • C08J7/04Coating
    • C08J7/0427Coating with only one layer of a composition containing a polymer binder
    • CCHEMISTRY; METALLURGY
    • C08ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
    • C08LCOMPOSITIONS OF MACROMOLECULAR COMPOUNDS
    • C08L79/00Compositions of macromolecular compounds obtained by reactions forming in the main chain of the macromolecule a linkage containing nitrogen with or without oxygen or carbon only, not provided for in groups C08L61/00 - C08L77/00
    • C08L79/04Polycondensates having nitrogen-containing heterocyclic rings in the main chain; Polyhydrazides; Polyamide acids or similar polyimide precursors
    • C08L79/08Polyimides; Polyester-imides; Polyamide-imides; Polyamide acids or similar polyimide precursors
    • CCHEMISTRY; METALLURGY
    • C09DYES; PAINTS; POLISHES; NATURAL RESINS; ADHESIVES; COMPOSITIONS NOT OTHERWISE PROVIDED FOR; APPLICATIONS OF MATERIALS NOT OTHERWISE PROVIDED FOR
    • C09DCOATING COMPOSITIONS, e.g. PAINTS, VARNISHES OR LACQUERS; FILLING PASTES; CHEMICAL PAINT OR INK REMOVERS; INKS; CORRECTING FLUIDS; WOODSTAINS; PASTES OR SOLIDS FOR COLOURING OR PRINTING; USE OF MATERIALS THEREFOR
    • C09D175/00Coating compositions based on polyureas or polyurethanes; Coating compositions based on derivatives of such polymers
    • C09D175/04Polyurethanes
    • C09D175/14Polyurethanes having carbon-to-carbon unsaturated bonds
    • CCHEMISTRY; METALLURGY
    • C09DYES; PAINTS; POLISHES; NATURAL RESINS; ADHESIVES; COMPOSITIONS NOT OTHERWISE PROVIDED FOR; APPLICATIONS OF MATERIALS NOT OTHERWISE PROVIDED FOR
    • C09DCOATING COMPOSITIONS, e.g. PAINTS, VARNISHES OR LACQUERS; FILLING PASTES; CHEMICAL PAINT OR INK REMOVERS; INKS; CORRECTING FLUIDS; WOODSTAINS; PASTES OR SOLIDS FOR COLOURING OR PRINTING; USE OF MATERIALS THEREFOR
    • C09D179/00Coating compositions based on macromolecular compounds obtained by reactions forming in the main chain of the macromolecule a linkage containing nitrogen, with or without oxygen, or carbon only, not provided for in groups C09D161/00 - C09D177/00
    • C09D179/04Polycondensates having nitrogen-containing heterocyclic rings in the main chain; Polyhydrazides; Polyamide acids or similar polyimide precursors
    • C09D179/08Polyimides; Polyester-imides; Polyamide-imides; Polyamide acids or similar polyimide precursors
    • GPHYSICS
    • G09EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
    • G09FDISPLAYING; ADVERTISING; SIGNS; LABELS OR NAME-PLATES; SEALS
    • G09F9/00Indicating arrangements for variable information in which the information is built-up on a support by selection or combination of individual elements
    • G09F9/30Indicating arrangements for variable information in which the information is built-up on a support by selection or combination of individual elements in which the desired character or characters are formed by combining individual elements
    • CCHEMISTRY; METALLURGY
    • C08ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
    • C08JWORKING-UP; GENERAL PROCESSES OF COMPOUNDING; AFTER-TREATMENT NOT COVERED BY SUBCLASSES C08B, C08C, C08F, C08G or C08H
    • C08J2377/00Characterised by the use of polyamides obtained by reactions forming a carboxylic amide link in the main chain; Derivatives of such polymers
    • C08J2377/06Polyamides derived from polyamines and polycarboxylic acids
    • CCHEMISTRY; METALLURGY
    • C08ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
    • C08JWORKING-UP; GENERAL PROCESSES OF COMPOUNDING; AFTER-TREATMENT NOT COVERED BY SUBCLASSES C08B, C08C, C08F, C08G or C08H
    • C08J2377/00Characterised by the use of polyamides obtained by reactions forming a carboxylic amide link in the main chain; Derivatives of such polymers
    • C08J2377/10Polyamides derived from aromatically bound amino and carboxyl groups of amino carboxylic acids or of polyamines and polycarboxylic acids
    • CCHEMISTRY; METALLURGY
    • C08ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
    • C08JWORKING-UP; GENERAL PROCESSES OF COMPOUNDING; AFTER-TREATMENT NOT COVERED BY SUBCLASSES C08B, C08C, C08F, C08G or C08H
    • C08J2379/00Characterised by the use of macromolecular compounds obtained by reactions forming in the main chain of the macromolecule a linkage containing nitrogen with or without oxygen, or carbon only, not provided for in groups C08J2361/00 - C08J2377/00
    • C08J2379/04Polycondensates having nitrogen-containing heterocyclic rings in the main chain; Polyhydrazides; Polyamide acids or similar polyimide precursors
    • C08J2379/08Polyimides; Polyester-imides; Polyamide-imides; Polyamide acids or similar polyimide precursors
    • CCHEMISTRY; METALLURGY
    • C08ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
    • C08JWORKING-UP; GENERAL PROCESSES OF COMPOUNDING; AFTER-TREATMENT NOT COVERED BY SUBCLASSES C08B, C08C, C08F, C08G or C08H
    • C08J2475/00Characterised by the use of polyureas or polyurethanes; Derivatives of such polymers
    • C08J2475/04Polyurethanes
    • C08J2475/14Polyurethanes having carbon-to-carbon unsaturated bonds
    • CCHEMISTRY; METALLURGY
    • C08ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
    • C08KUse of inorganic or non-macromolecular organic substances as compounding ingredients
    • C08K3/00Use of inorganic substances as compounding ingredients
    • C08K3/34Silicon-containing compounds
    • C08K3/36Silica

Landscapes

  • Chemical & Material Sciences (AREA)
  • Organic Chemistry (AREA)
  • Chemical Kinetics & Catalysis (AREA)
  • Health & Medical Sciences (AREA)
  • Medicinal Chemistry (AREA)
  • Polymers & Plastics (AREA)
  • Engineering & Computer Science (AREA)
  • Manufacturing & Machinery (AREA)
  • Materials Engineering (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Wood Science & Technology (AREA)
  • Theoretical Computer Science (AREA)
  • General Physics & Mathematics (AREA)
  • Physics & Mathematics (AREA)
  • Manufacture Of Macromolecular Shaped Articles (AREA)
  • Laminated Bodies (AREA)
  • Devices For Indicating Variable Information By Combining Individual Elements (AREA)
  • Coating Of Shaped Articles Made Of Macromolecular Substances (AREA)
  • Polyamides (AREA)
  • Compositions Of Macromolecular Compounds (AREA)

Abstract

The embodiments relate to a polyamide-based composite film that not only has excellent curl characteristics, mechanical properties, and optical properties, but also exhibits a privacy protection effect at a wide angle of view and glossiness characteristics similar to those glass at a main angle of view, and to a display device comprising the same. There are provided a polyamide-based composite film that comprises a base film comprising a polyamide-based polymer; and a functional layer disposed on the base film, wherein a glossiness control value according to Equation 1 is 0 or more, and a displace device comprising the same.

Description

聚醯胺系複合薄膜及包含其之顯示裝置Polyamide composite film and display device containing the same

發明領域Field of invention

實施例係關於一種聚醯胺系複合薄膜,其不僅具有極佳捲曲特徵、機械特性及光學特性,且亦展現廣視角下之隱私保護效果及主視角下之類似於玻璃之光澤度特徵,且係關於包含該聚醯胺系複合薄膜之顯示裝置。The embodiment relates to a polyamide-based composite film, which not only has excellent curling characteristics, mechanical properties and optical properties, but also exhibits a privacy protection effect under a wide viewing angle and a glass-like glossiness under a main viewing angle, and It relates to a display device including the polyamide composite film.

發明背景Background of the invention

聚醯胺系聚合物,諸如聚(醯胺-亞胺) (PAI)在耐摩擦、耐熱及耐化學方面為極佳的。因此,其用於諸如初級電氣絕緣件、塗層、黏著劑、用於擠出之樹脂、耐熱漆、耐熱板、耐熱黏著劑、耐熱纖維及耐熱薄膜的應用中。Polyamide-based polymers, such as poly(amide-imine) (PAI), are excellent in friction, heat and chemical resistance. Therefore, it is used in applications such as primary electrical insulation, coatings, adhesives, resins for extrusion, heat-resistant paints, heat-resistant boards, heat-resistant adhesives, heat-resistant fibers and heat-resistant films.

聚醯胺用於各種領域中。舉例而言,聚醯胺以粉末形式製造且用作金屬或磁導線之塗層。視其應用而定,其與其他添加劑混合。此外,聚醯胺用於塗佈廚具,用作藉助於其耐熱性及耐化學性進行氣體分離之膜,且用於天然氣井以便過濾諸如二氧化碳、硫化氫及雜質之污染物。Polyamides are used in a variety of fields. For example, polyamides are produced in powder form and used as coatings for metal or magnetic wires. Depending on its application, it is mixed with other additives. In addition, polyamides are used to coat kitchenware, as membranes for gas separation thanks to their heat and chemical resistance, and in natural gas wells to filter contaminants such as carbon dioxide, hydrogen sulfide, and impurities.

近年來,聚醯胺已以薄膜形式發展,該薄膜形式更便宜且具有極佳光學、機械及熱特徵。此類聚醯胺系薄膜可應用於用於有機發光二極體(OLED)或液晶顯示器(LCD)以及其類似物的顯示材料,且應用於抗反射薄膜、補償薄膜以及在實施延遲特性的情況下延遲薄膜。In recent years, polyamides have been developed in film form, which is cheaper and has excellent optical, mechanical and thermal characteristics. Such polyamide-based films can be applied to display materials for organic light-emitting diodes (OLEDs) or liquid crystal displays (LCDs) and the like, and to anti-reflection films, compensation films, and in the case of implementing retardation characteristics Retardation film.

發明概要 技術問題 Invention Summary Technical Problems

實施例之目標為提供一種聚醯胺系複合薄膜,其不僅具有極佳捲曲特徵、機械特性及光學特性,且亦在廣視角下產生隱私保護效果且在主視角下展現類似於玻璃之光澤度特徵,且提供包含該聚醯胺系複合薄膜之顯示裝置。 問題解決方案 The goal of the embodiment is to provide a polyamide-based composite film that not only has excellent curling characteristics, mechanical properties, and optical properties, but also produces a privacy protection effect at a wide viewing angle and exhibits a gloss similar to glass at the main viewing angle. Characteristics, and a display device including the polyamide composite film is provided. problem solution

一實施例提供一種聚醯胺系複合薄膜,其包含包括聚醯胺系聚合物之基底薄膜;及安置於基底薄膜上之功能層,其中根據以下方程式1之聚醯胺系複合薄膜之光澤度控制值為0或更大。 [方程式1] 光澤度控制值=85°下之光澤度(GL 85) -20°下之光澤度(GL 20) One embodiment provides a polyamide-based composite film, which includes a base film including a polyamide-based polymer; and a functional layer disposed on the base film, wherein the glossiness of the polyamide-based composite film is according to the following equation 1 The control value is 0 or greater. [Equation 1] Glossiness control value = Glossiness at 85° (GL 85 ) - Glossiness at 20° (GL 20 )

在方程式1中,85°下之光澤度(GL 85)為根據JIS Z 8741-1997標準利用聚醯胺系複合薄膜以85°之入射角量測之光澤度,且20°下之光澤度(GL 20)為根據JIS Z 8741-1997標準利用聚醯胺系複合薄膜以20°之入射角量測之光澤度。 In Equation 1, the gloss at 85° (GL 85 ) is the gloss measured using a polyamide composite film at an incident angle of 85° in accordance with the JIS Z 8741-1997 standard, and the gloss at 20° ( GL 20 ) is the gloss measured using a polyamide composite film at an incident angle of 20° in accordance with the JIS Z 8741-1997 standard.

另一實施例提供一種顯示裝置,其包含顯示單元;及安置於顯示單元上之聚醯胺系複合薄膜,其中聚醯胺系複合薄膜包含包括聚醯胺系聚合物之基底薄膜;及安置於基底薄膜上之功能層,且根據以上方程式1之聚醯胺系複合薄膜之光澤度控制值為0或更大。 本發明之有利效果 Another embodiment provides a display device, which includes a display unit; and a polyamide composite film disposed on the display unit, wherein the polyamide composite film includes a base film including a polyamide polymer; and is disposed on The functional layer on the base film, and the gloss control value of the polyamide composite film according to the above equation 1 is 0 or greater. Advantageous effects of the present invention

根據該實施例之聚醯胺系複合薄膜不僅在高透射率及低混濁度方面具有極佳光學特徵,而且在極佳捲曲特徵、高表面硬度及低表面粗糙度方面具有極佳機械特徵。The polyamide-based composite film according to this embodiment not only has excellent optical characteristics in terms of high transmittance and low turbidity, but also has excellent mechanical characteristics in terms of excellent curl characteristics, high surface hardness, and low surface roughness.

特定言之,根據該實施例之聚醯胺系複合薄膜在廣視角下產生隱私保護效果,因為其展現習知聚醯胺系薄膜之光澤度位準,同時其在主視角下展現類似於玻璃之光澤度之光澤度位準,由此有可能實現極佳可見度及類似於玻璃之美觀性感覺。Specifically, the polyamide-based composite film according to this embodiment produces a privacy protection effect under a wide viewing angle because it exhibits the gloss level of a conventional polyamide-based film, and at the same time, it exhibits a glass-like gloss under a main viewing angle. The high gloss level makes it possible to achieve excellent visibility and an aesthetic feel similar to glass.

此外,根據該實施例之聚醯胺系複合薄膜同時滿足極佳可撓性及高表面硬度特徵,以使得其可有利地應用於可摺疊顯示裝置或可撓性顯示裝置。In addition, the polyamide-based composite film according to this embodiment simultaneously meets the characteristics of excellent flexibility and high surface hardness, so that it can be advantageously applied to foldable display devices or flexible display devices.

較佳實施例之詳細說明Detailed description of preferred embodiments

在下文中,將參考隨附圖式詳細描述實施例,使得熟習本發明所涉及之技術者可容易地對其進行實踐。然而,該等實施例可以許多不同方式實施且不限於本文中所描述之彼等實施例。Hereinafter, embodiments will be described in detail with reference to the accompanying drawings so that those skilled in the art to which the present invention relates can easily practice the same. However, these embodiments may be implemented in many different ways and are not limited to the embodiments described herein.

在整個本說明書中,在提及各薄膜、窗、面板、層或其類似物形成於另一薄膜、窗、面板、層或其類似物「上」或「下」的情況下,其不僅意謂一個元件直接形成於另一元件上或下,且亦意謂一個元件間接形成於另一元件上或下,其中具有插入於其間的一或多個其他元件。另外,相對於各元件的術語上或下可參考圖式。為了描述,個別元件的大小可在隨附圖式中誇張地描繪,且並不指示實際大小。另外,在整個說明書中,相同參考數字指相同元件。Throughout this specification, when reference is made to each film, window, panel, layer, or the like being formed "on" or "under" another film, window, panel, layer, or the like, it does not mean only It means that one element is formed directly on or under another element, and it also means that one element is formed indirectly on or under another element, with one or more other elements interposed therebetween. In addition, the terminology "upper" or "lower" with respect to each element may be referred to in the drawings. The sizes of individual elements may be exaggerated in the accompanying drawings for purposes of description and do not indicate actual sizes. Additionally, throughout this specification, the same reference numerals refer to the same elements.

在整個本說明書中,除非另外特定陳述,否則當一部分被稱為「包含」一元件時,應理解可包含其他元件,而不排除其他元件。Throughout this specification, unless specifically stated otherwise, when a portion is referred to as "comprising" an element, it will be understood that other elements may be included but not excluded.

在本說明書中,除非另外規定,否則單數表示解釋為涵蓋在上下文中得到解釋的單數或複數。In this specification, unless otherwise specified, singular references are to be construed as encompassing the singular or plural form construed in the context.

另外,除非另外指明,否則與本文中所使用之組分、反應條件及其類似物之數量有關的所有數字及表示均應理解為由術語「約」來修飾。Additionally, unless otherwise indicated, all numbers and expressions relating to quantities of components, reaction conditions, and the like used herein are to be understood as modified by the term "about."

術語第一、第二及其類似者在本文中用以描述各種元件,且該等元件不應受該等術語限制。該等術語僅用於將一個元件與另一元件區分開來的目的。The terms first, second, and the like are used herein to describe various elements, and these elements should not be limited by these terms. These terms are only used for the purpose of distinguishing one element from another element.

另外,如本文所用,術語「經取代」意謂經至少一個選自由以下組成之群的取代基取代:氘、-F、-Cl、-Br、-I、羥基、氰基、硝基、胺基、甲脒基、肼基、腙基、酯基、酮基、羧基、經取代或未經取代之烷基、經取代或未經取代之烯基、經取代或未經取代之炔基、經取代或未經取代之烷氧基、經取代或未經取代之脂環族有機基團、經取代或未經取代之雜環基、經取代或未經取代之芳基以及經取代或未經取代之雜芳基。上文列舉之取代基可彼此連接以形成環。Additionally, as used herein, the term "substituted" means substituted with at least one substituent selected from the group consisting of: deuterium, -F, -Cl, -Br, -I, hydroxyl, cyano, nitro, amine group, formamidino group, hydrazine group, hydrazone group, ester group, ketone group, carboxyl group, substituted or unsubstituted alkyl group, substituted or unsubstituted alkenyl group, substituted or unsubstituted alkynyl group, Substituted or unsubstituted alkoxy groups, substituted or unsubstituted alicyclic organic groups, substituted or unsubstituted heterocyclic groups, substituted or unsubstituted aryl groups, and substituted or unsubstituted aryl groups Substituted heteroaryl. The substituents listed above can be linked to each other to form a ring.

需要可應用於諸如有機發光二極體及液晶顯示器之顯示材料的聚醯胺系薄膜具有極佳光學、機械及熱特徵。There is a need for polyamide-based films with excellent optical, mechanical and thermal characteristics that can be used in display materials such as organic light-emitting diodes and liquid crystal displays.

當將聚醯胺系薄膜應用於顯示裝置時,在顯示裝置中採用包含硬塗層及基底薄膜的透明覆蓋窗。在此類情況下,可能存在的問題在於在基底薄膜上形成硬塗層的製程中,透明覆蓋窗的混濁度增加,或可能由於黏接強度不足而出現缺陷。所產生之透明覆蓋窗在主視角下相較於玻璃之光澤度具有較高位準之光澤度,由此可見度劣化或無法實現類似於玻璃之美觀性感覺,使得其不適用作玻璃之替代物。When a polyamide-based film is applied to a display device, a transparent cover window including a hard coat layer and a base film is used in the display device. In such cases, the possible problem is that the haze of the transparent cover window increases during the process of forming the hard coating on the base film, or defects may occur due to insufficient bonding strength. The resulting transparent cover window has a higher level of gloss compared to the gloss of glass at the main viewing angle, thereby deteriorating visibility or failing to achieve an aesthetic feel similar to glass, making it unsuitable for use as a substitute for glass.

此外,在其上塗覆有諸如硬塗層之功能層的適用於顯示裝置的薄膜之情況下,機械強度在將其應用於可撓性顯示器時應較高,且需要在製造製程或使用期間不在薄膜邊緣處引起捲曲的技術。在此類情況下,其例如用於保護顯示裝置之表面可更有效。Furthermore, in the case of a film suitable for a display device on which a functional layer such as a hard coat layer is coated, the mechanical strength should be high when it is applied to a flexible display and needs to be removed during the manufacturing process or use. A technique that causes curling at the edges of the film. In such cases, it may be more effective, for example, in protecting the surface of a display device.

因此,已確認根據實施例之聚醯胺系複合薄膜在廣視角(例如85°)附近產生隱私保護效果,因為其展現習知聚醯胺系薄膜之光澤度位準,同時其在主視角(例如20°)下展現類似於玻璃之光澤度之光澤度位準;因此,由於其達成極佳可見度及類似於玻璃之美觀性感覺,其適用於透明覆蓋窗及包含透明覆蓋窗之顯示裝置,由此完成該實施例。 聚醯胺系複合薄膜 Therefore, it has been confirmed that the polyamide-based composite film according to the embodiment produces a privacy protection effect near a wide viewing angle (e.g., 85°) because it exhibits the gloss level of a conventional polyamide-based film, and at the same time, it exhibits a gloss level at a main viewing angle (e.g., 20°) °) exhibits a gloss level similar to that of glass; therefore, since it achieves excellent visibility and an aesthetic feel similar to glass, it is suitable for transparent cover windows and display devices containing transparent cover windows, thereby Complete this example. Polyamide composite film

該實施例提供一種聚醯胺系複合薄膜,其不僅具有極佳機械特性及光學特徵,且亦在廣視角(例如85°之入射角)下展現習知聚醯胺系薄膜之光澤度位準,同時其在主視角(例如20°之入射角)下展現類似於玻璃之光澤度之光澤度位準,由此增強可見度且實現類似於玻璃之美觀性感覺。This embodiment provides a polyamide-based composite film, which not only has excellent mechanical properties and optical characteristics, but also exhibits the gloss level of conventional polyamide-based films under a wide viewing angle (for example, an incident angle of 85°). At the same time, It exhibits a gloss level similar to that of glass at a principal viewing angle (eg, an incident angle of 20°), thereby enhancing visibility and achieving an aesthetic feel similar to glass.

根據實施例之聚醯胺系複合薄膜包含包括聚醯胺系聚合物之基底薄膜;及安置於基底薄膜上之功能層。The polyamide composite film according to the embodiment includes a base film including a polyamide polymer; and a functional layer disposed on the base film.

在一實施例中,聚醯胺系複合薄膜具有0或更大之根據以下方程式1之光澤度控制值。 [方程式1] 光澤度控制值=85°下之光澤度(GL 85) -20°下之光澤度(GL 20) In one embodiment, the polyamide-based composite film has a gloss control value of 0 or greater according to Equation 1 below. [Equation 1] Glossiness control value = Glossiness at 85° (GL 85 ) - Glossiness at 20° (GL 20 )

在方程式1中,85°下之光澤度(GL 85)為根據JIS Z 8741-1997標準利用聚醯胺系複合薄膜以85°之入射角量測之光澤度,且20°下之光澤度(GL 20)為根據JIS Z 8741-1997標準利用聚醯胺系複合薄膜以20°之入射角量測之光澤度。 In Equation 1, the gloss at 85° (GL 85 ) is the gloss measured using a polyamide composite film at an incident angle of 85° in accordance with the JIS Z 8741-1997 standard, and the gloss at 20° ( GL 20 ) is the gloss measured using a polyamide composite film at an incident angle of 20° in accordance with the JIS Z 8741-1997 standard.

特定言之,聚醯胺系複合薄膜之光澤度控制值可為0至30、0至25、0至20或2至20,但其不限於此。Specifically, the gloss control value of the polyamide composite film can be 0 to 30, 0 to 25, 0 to 20, or 2 to 20, but it is not limited thereto.

光澤度控制值係指表示85°下之光澤度與20°下之光澤度之間的差異的值。其為與類似於玻璃之美觀性感覺之某些達成位準、主視角下之可見度增強及廣視角下之隱私保護效果相關聯的量度。The gloss control value refers to a value that represents the difference between the gloss at 85° and the gloss at 20°. It is a measure associated with certain attainment levels of an aesthetic feel similar to that of glass, enhanced visibility at primary viewing angles, and privacy protection at wide viewing angles.

亦即,在符合0或更大,特定言之0至30之光澤度控制值的聚醯胺系複合薄膜之情況下,其在廣視角下產生隱私保護效果,因為其展現習知聚醯胺系薄膜之光澤度位準,同時其在主視角下展現類似於玻璃之光澤度之光澤度位準,由此增強可見度且實現類似於玻璃之美觀性感覺;因此,其容易地適用於透明覆蓋窗及包含透明覆蓋窗之顯示裝置。That is, in the case of a polyamide-based composite film that meets a gloss control value of 0 or greater, specifically 0 to 30, it produces a privacy protection effect under a wide viewing angle because it exhibits the glossiness of conventional polyamide-based films. At the same time, it exhibits a gloss level similar to that of glass at the main viewing angle, thereby enhancing visibility and achieving an aesthetic feel similar to glass; therefore, it is easily applicable to transparent cover windows and A display device including a transparent cover window.

另一方面,在具有小於0之光澤度控制值的聚醯胺系複合薄膜之情況下,在主視角下之光澤度高於玻璃之光澤度,從而降低可見度或無法實現類似於玻璃之美觀性感覺;因此,其不適於作為玻璃之替代物商業化。On the other hand, in the case of a polyamide-based composite film with a gloss control value less than 0, the gloss at the main viewing angle is higher than that of glass, thereby reducing visibility or failing to achieve aesthetics similar to glass. feel; therefore, it is not suitable for commercialization as a replacement for glass.

在一實施例中,聚醯胺系複合薄膜在20°下之光澤度(GL 20)為80至120。此處,20°下之光澤度(GL 20)為根據JIS Z 8741-1997標準利用聚醯胺系複合薄膜以20°之入射角量測之光澤度。 In one embodiment, the glossiness (GL 20 ) of the polyamide composite film at 20° is 80 to 120. Here, the glossiness at 20° (GL 20 ) is the glossiness measured using a polyamide composite film at an incident angle of 20° in accordance with the JIS Z 8741-1997 standard.

特定言之,20°下之光澤度(GL 20)可為85至120、90至120、90至115、90至110或95至110,但其不限於此。 Specifically, the gloss (GL 20 ) at 20° may be 85 to 120, 90 to 120, 90 to 115, 90 to 110, or 95 to 110, but is not limited thereto.

聚醯胺系複合薄膜在60°下之光澤度(GL 60)為90至165。此處,60°下之光澤度(GL 60)為根據JIS Z 8741-1997標準利用聚醯胺系複合薄膜以60°之入射角量測之光澤度。 The glossiness (GL 60 ) of the polyamide composite film at 60° is 90 to 165. Here, the gloss at 60° (GL 60 ) is the gloss measured using a polyamide composite film at an incident angle of 60° in accordance with the JIS Z 8741-1997 standard.

特定言之,60°下之光澤度(GL 60)可為95至165、90至162、95至162、100至165、110至165、120至165、130至165或140至165,但其不限於此。 Specifically, the glossiness (GL 60 ) at 60° can be 95 to 165, 90 to 162, 95 to 162, 100 to 165, 110 to 165, 120 to 165, 130 to 165, or 140 to 165, but other Not limited to this.

聚醯胺系複合薄膜在85°下之光澤度(GL 85)為90至117。此處,85°下之光澤度(GL 85)為根據JIS Z 8741-1997標準利用聚醯胺系複合薄膜以85°之入射角量測之光澤度。 The glossiness (GL 85 ) of the polyamide composite film at 85° is 90 to 117. Here, the gloss at 85° (GL 85 ) is the gloss measured using a polyamide-based composite film at an incident angle of 85° in accordance with the JIS Z 8741-1997 standard.

特定言之,85°下之光澤度(GL 85)可為95至117或100至117,但其不限於此。 Specifically, the gloss (GL 85 ) at 85° may be 95 to 117 or 100 to 117, but it is not limited thereto.

若聚醯胺系複合薄膜在20°下之光澤度(GL 20),在60°下之光澤度(GL 60)及在85°下之光澤度(GL 85)在以上範圍內,則其有可能在主視角下展現類似於玻璃之光澤度特徵,由此增強可見度,且在廣視角下展現高光澤度位準,由此產生隱私保護效果。另外,由於其適用作玻璃之替代薄膜作為顯示器之覆蓋窗,因此其可甚至確保與玻璃相比的輕量化。 If the gloss of the polyamide composite film at 20° (GL 20 ), the gloss at 60° (GL 60 ) and the gloss at 85° (GL 85 ) are within the above range, then it has It may exhibit gloss characteristics similar to glass at the main viewing angle, thereby enhancing visibility, and may exhibit a high gloss level at wide viewing angles, thereby producing a privacy protection effect. In addition, since it is suitable as a replacement film for glass as a cover window for a display, it can even ensure weight reduction compared to glass.

根據實施例之聚醯胺系複合薄膜之平均光澤度(GL AVG)為90至130,其為20°下之光澤度(GL 20)、60°下之光澤度(GL 60)及85°下之光澤度(GL 85)的平均值。 The average gloss (GL AVG ) of the polyamide-based composite film according to the embodiment is 90 to 130, which is the gloss at 20° (GL 20 ), the gloss at 60° (GL 60 ) and the gloss at 85° The average glossiness (GL 85 ).

特定言之,平均光澤度可為95至130、98至130、100至130、110至130或120至130,但其不限於此。Specifically, the average gloss may be 95 to 130, 98 to 130, 100 to 130, 110 to 130, or 120 to 130, but it is not limited thereto.

若聚醯胺系複合薄膜之平均光澤度在以上範圍內,則其有可能具有類似於玻璃之光澤度特徵且達成類似於玻璃之美觀性感覺,以使得其適用作玻璃之替代物。由於有可能確保與玻璃相比的輕量化及極佳摺疊特徵,因此其容易地適用於可摺疊顯示裝置或可撓式顯示裝置。If the average gloss of the polyamide-based composite film is within the above range, it may have gloss characteristics similar to glass and achieve an aesthetic feeling similar to glass, making it suitable as a substitute for glass. Since it is possible to ensure lightweight and excellent folding characteristics compared to glass, it is easily applicable to foldable display devices or flexible display devices.

根據JIS Z 8741-1997標準,使用VG-7000設備針對20 mm×60 mm×50 μm之薄膜樣品來量測光澤度,其中入射角及光接收角設置為相同的。入射角為20°、60°及85°。特定言之,在製備聚醯胺系複合薄膜之後,使功能層與光澤度儀之量測單元接觸,且隨後量測聚醯胺系複合薄膜之光澤度。According to the JIS Z 8741-1997 standard, the VG-7000 equipment was used to measure the glossiness of a film sample of 20 mm × 60 mm × 50 μm, with the incident angle and light acceptance angle set to the same. The angles of incidence are 20°, 60° and 85°. Specifically, after preparing the polyamide composite film, the functional layer is brought into contact with the measuring unit of the gloss meter, and then the gloss of the polyamide composite film is measured.

在一實施例中,在聚醯胺系複合薄膜中,與接觸基底薄膜之側相對定位的功能層之一側的表面硬度為5H或更高。In one embodiment, in the polyamide-based composite film, the surface hardness of one side of the functional layer positioned opposite to the side in contact with the base film is 5H or higher.

若聚醯胺系複合薄膜之表面硬度在以上範圍內,則其在施加於顯示裝置時耐刮擦或強衝擊;因此可良好保護顯示裝置。If the surface hardness of the polyamide-based composite film is within the above range, it will be resistant to scratches or strong impact when applied to a display device; therefore, the display device can be well protected.

在另一實施例中,在聚醯胺系複合薄膜中,與接觸基底薄膜之側相對定位的功能層之一側的表面粗糙度(Ra)為0.06 µm或更小。In another embodiment, in the polyamide-based composite film, the surface roughness (Ra) of one side of the functional layer positioned opposite to the side contacting the base film is 0.06 μm or less.

特定言之,表面粗糙度(Ra)可為0.05 µm或更小,但其不限於此。Specifically, the surface roughness (Ra) may be 0.05 µm or less, but it is not limited thereto.

若聚醯胺系複合薄膜之表面粗糙度在以上範圍內,則當將複合薄膜施加於顯示裝置時,有可能獲得具有類似於玻璃之光澤度之光澤度位準的薄膜,以在主視角下減少顯示器之反射,產生增加可見度之效果,且展現極佳捲曲特徵。因此,其容易地適用於可撓式顯示裝置或可摺疊顯示裝置。If the surface roughness of the polyamide-based composite film is within the above range, when the composite film is applied to a display device, it is possible to obtain a film with a gloss level similar to that of glass, so that it can be viewed at the main viewing angle Reduces display reflection, increases visibility, and exhibits excellent curl characteristics. Therefore, it is easily applicable to a flexible display device or a foldable display device.

在再一實施例中,聚醯胺系複合薄膜之捲曲高度為15 mm或更小。In yet another embodiment, the curl height of the polyamide composite film is 15 mm or less.

將聚醯胺系複合薄膜切分為10 cm×10 cm之尺寸,將其置放於玻璃板上以使得基底薄膜與玻璃板接觸,且在25℃下及50% RH下量測與玻璃板之4個角相距之高度。捲曲高度係指該等高度之平均值。Cut the polyamide composite film into 10 cm × 10 cm size, place it on the glass plate so that the base film is in contact with the glass plate, and measure the contact with the glass plate at 25°C and 50% RH. The height between the four corners. Curl height refers to the average of these heights.

特定言之,聚醯胺系複合薄膜之捲曲高度可為10 mm或更小、1 mm至15 mm、2 mm至15 mm、4 mm至15 mm或4 mm至10 mm,但其不限於此。Specifically, the curl height of the polyamide composite film can be 10 mm or less, 1 mm to 15 mm, 2 mm to 15 mm, 4 mm to 15 mm or 4 mm to 10 mm, but it is not limited thereto. .

聚醯胺系複合薄膜之混濁度為1%或更小。舉例而言,混濁度可為0.8%或更小、0.6%或更小、0.5%或更小、0.42%或更小或0.41%或更小,但其不限於此。The haze of the polyamide composite film is 1% or less. For example, the turbidity may be 0.8% or less, 0.6% or less, 0.5% or less, 0.42% or less, or 0.41% or less, but is not limited thereto.

聚醯胺系複合薄膜具有80%或更大之透射率。舉例而言,透射率可為82%或更大、85%或更大、88%或更大、89%或更大、90%或更大、91%或更大、90%至99%或91%至99%,但其不限於此。Polyamide-based composite films have a transmittance of 80% or greater. For example, the transmittance may be 82% or greater, 85% or greater, 88% or greater, 89% or greater, 90% or greater, 91% or greater, 90% to 99%, or 91% to 99%, but it is not limited thereto.

聚醯胺系複合薄膜具有5或更小之黃色指數。舉例而言,黃色指數可為4或更小、3.5或更小,或3或更小,但其不限於此。The polyamide-based composite film has a yellow index of 5 or less. For example, the yellowness index may be 4 or less, 3.5 or less, or 3 or less, but it is not limited thereto.

若聚醯胺系複合薄膜之混濁度、透射率及黃色指數在以上範圍內,則其為無色且透明的且具有極佳的光學及機械特性;因此其適用作玻璃之替代薄膜作為顯示器之覆蓋窗。If the turbidity, transmittance and yellowness index of the polyamide composite film are within the above range, it is colorless and transparent and has excellent optical and mechanical properties; therefore, it is suitable for use as a replacement film for glass as a cover for displays window.

參見圖1,根據實施例之聚醯胺系複合薄膜包含基底薄膜(100)及安置於基底薄膜(100)上之功能層(200)。Referring to Figure 1, a polyamide-based composite film according to an embodiment includes a base film (100) and a functional layer (200) disposed on the base film (100).

基底薄膜(100)可為支撐功能層(200)的支撐層。另外,基底薄膜(100)可包含聚醯胺系聚合物。舉例而言,基底薄膜(100)可為聚醯胺系薄膜。The base film (100) may be a supporting layer supporting the functional layer (200). In addition, the base film (100) may include polyamide-based polymer. For example, the base film (100) can be a polyamide film.

功能層(200)可形成為基底薄膜(100)上之塗層。功能層(200)可層壓於基底薄膜(100)上。功能層(200)可黏合於基底薄膜(100)上。The functional layer (200) may be formed as a coating on the base film (100). The functional layer (200) can be laminated on the base film (100). The functional layer (200) can be bonded to the base film (100).

功能層(200)可為塗佈於基底薄膜(100)上之塗層。功能層(200)可包含可固化樹脂。特定言之,功能層(200)可為可固化塗層。The functional layer (200) may be a coating coated on the base film (100). The functional layer (200) may include curable resin. In particular, the functional layer (200) may be a curable coating.

功能層(200)可起作用以增強基底薄膜(100)之機械特性及/或光學特性。功能層可包含抗反射層、抗污層、硬塗層及耐刮擦層。The functional layer (200) can function to enhance the mechanical properties and/or optical properties of the base film (100). The functional layer may include an anti-reflective layer, an anti-fouling layer, a hard coating layer and a scratch-resistant layer.

如圖1中所展示,功能層(200)包含第二側(102)。第二側(102)為定位於其上安置有基底薄膜(100)之功能層(200)之側上的一側。第二側(102)為定位於與基底薄膜(100)接觸之功能層(200)的側上的一側。第二側(102)可為功能層(200)之下部側。舉例而言,第二側(102)可為功能層(200)之底側。As shown in Figure 1, the functional layer (200) contains the second side (102). The second side (102) is the side positioned on the side of the functional layer (200) on which the base film (100) is disposed. The second side (102) is the side positioned on the side of the functional layer (200) in contact with the base film (100). The second side (102) may be the lower side of the functional layer (200). For example, the second side (102) may be the bottom side of the functional layer (200).

基底薄膜(100)包含第一側(101)。第一側(101)為與上面安置有功能層(200)之基底薄膜(100)之側相對的一側。第一側(101)為與接觸功能層(200)之基底薄膜(100)之側相對定位的側。第一側(101)可為基底薄膜(100)的下部側。舉例而言,第一側(101)可為基底薄膜(100)的底側。 基底薄膜(100) The base film (100) includes a first side (101). The first side (101) is the side opposite to the side of the base film (100) on which the functional layer (200) is disposed. The first side (101) is a side positioned opposite to the side of the base film (100) that contacts the functional layer (200). The first side (101) may be the lower side of the base film (100). For example, the first side (101) may be the bottom side of the base film (100). Base film(100)

根據實施例之基底薄膜(100)包含聚醯胺系聚合物。The base film (100) according to the embodiment includes polyamide polymer.

基底薄膜(100)可進一步包含消光劑。The base film (100) may further include a matting agent.

消光劑可為選自由以下組成之群的至少一者:二氧化矽、聚(甲基丙烯酸甲酯) (PMMA)、聚(甲基丙烯酸丁酯) (PBMA)、聚苯乙烯(PS)、三聚氰胺、聚矽氧、硫酸鋇及玻璃。The matting agent may be at least one selected from the group consisting of: silicon dioxide, poly(methyl methacrylate) (PMMA), poly(butyl methacrylate) (PBMA), polystyrene (PS), Melamine, polysiloxane, barium sulfate and glass.

消光劑可具有10 nm至1,000 nm的平均粒徑。舉例而言,消光劑之平均粒徑可為50 nm至800 nm、50 nm至500 nm、50 nm至300 nm、50 nm至200 nm、70 nm至180 nm或100 nm至150 nm,但其不限於此。Matting agents can have an average particle size of 10 nm to 1,000 nm. For example, the average particle size of the matting agent can be 50 nm to 800 nm, 50 nm to 500 nm, 50 nm to 300 nm, 50 nm to 200 nm, 70 nm to 180 nm, or 100 nm to 150 nm, but its Not limited to this.

因為基底薄膜包含消光劑,所以有可能降低光澤度,由此獲得具有類似於玻璃之光澤度之光澤度位準的薄膜。此外,有可能在薄膜製備期間藉由增強表面粗糙度及捲繞性來增強改良滑動時產生的刮擦的效果,及達成類似於玻璃之美觀性感覺之美觀性感覺。此外,其藉由降低顯示器之反射產生增強可見度之效果。Since the base film contains a matting agent, it is possible to reduce the gloss, thereby obtaining a film having a gloss level similar to that of glass. In addition, it is possible to enhance the effect of improving scratches during sliding by enhancing surface roughness and windability during film preparation, and achieve an aesthetic feel similar to that of glass. In addition, it has the effect of enhancing visibility by reducing reflections in the display.

基底薄膜可包含按聚醯胺系聚合物之總重量計呈100至3,000 ppm或200至1,000 ppm之量的消光劑。The base film may include a matting agent in an amount of 100 to 3,000 ppm or 200 to 1,000 ppm based on the total weight of the polyamide-based polymer.

若包含於薄膜中之消光劑之含量超過以上範圍,則消光劑在薄膜之表面上沈澱以使其不可進行後續製程,或薄膜之混濁度增加,使得光學特性顯著劣化。另外,若消光劑之含量小於以上範圍,則歸因於表面積小可塗佈性可為不良的,其對於後續製程可為不利的,且其可引起在功能層形成於基底薄膜上之後的耐久性(例如,脫離抗性)劣化。If the content of the matting agent contained in the film exceeds the above range, the matting agent will precipitate on the surface of the film, making it impossible to proceed with subsequent processes, or the turbidity of the film will increase, causing significant deterioration in optical properties. In addition, if the content of the matting agent is less than the above range, the coatability may be poor due to the small surface area, which may be disadvantageous for subsequent processes, and it may cause durability problems after the functional layer is formed on the base film. properties (e.g., escape resistance).

若消光劑之平均粒徑及/或含量滿足以上範圍,則功能層可易於塗佈,且最終製造之薄膜中的基底薄膜及功能層之相容性增強,由此有可能達成穩定的複合薄膜。特定言之,由於消光劑的平均粒徑及含量經組合以增加基底薄膜的表面積,因此其可充當適於應用於具有極佳耐久性的複合薄膜的基底薄膜。If the average particle size and/or content of the matting agent meets the above range, the functional layer can be easily coated, and the compatibility of the base film and the functional layer in the final film is enhanced, making it possible to achieve a stable composite film. . In particular, since the average particle size and content of the matting agent are combined to increase the surface area of the base film, it may serve as a base film suitable for application to a composite film with excellent durability.

基底薄膜中的殘餘溶劑的含量為1,500 ppm或更小。舉例而言,殘餘溶劑之含量可為1,200 ppm或更小、1,000 ppm或更小、800 ppm或更小或500 ppm或更小,但其不限於此。The content of residual solvent in the base film is 1,500 ppm or less. For example, the content of the residual solvent may be 1,200 ppm or less, 1,000 ppm or less, 800 ppm or less, or 500 ppm or less, but is not limited thereto.

殘餘溶劑係指在薄膜產生期間未揮發且保持在最後產生之薄膜中的溶劑。Residual solvent refers to the solvent that has not evaporated during film production and remains in the final film produced.

若基底薄膜中的殘餘溶劑的含量超過以上範圍,則薄膜的耐久性可能劣化,且其可能對光澤度具有影響。If the content of the residual solvent in the base film exceeds the above range, the durability of the film may deteriorate, and it may have an impact on gloss.

另外,基底薄膜具有由以下方程式2表示的10至200的IS值。 [方程式2] IS = IM + In addition, the base film has an IS value of 10 to 200 expressed by Equation 2 below. [Equation 2] IS = IM +

在方程式2中,IM表示醯亞胺重複單元及醯胺重複單元在薄膜中的總莫耳數為100之情況下醯亞胺重複單元的莫耳數;且RS表示殘餘溶劑在薄膜中的含量(ppm)。In Equation 2, IM represents the mole number of the imine repeating unit and the total mole number of the imide repeating unit in the film when it is 100; and RS represents the content of the residual solvent in the film. (ppm).

舉例而言,IS值可為10至150、10至120或10至60,但其不限於此。For example, the IS value may be 10 to 150, 10 to 120, or 10 to 60, but is not limited thereto.

若基底薄膜的IS值滿足以上範圍,則有可能獲得在苛刻條件下具有極佳耐久性、摺疊特徵極佳且具有類似於玻璃之光澤度之光澤度位準的薄膜。If the IS value of the base film satisfies the above range, it is possible to obtain a film with excellent durability under harsh conditions, excellent folding characteristics, and a gloss level similar to that of glass.

當根據實施例之基底薄膜基於50 μm之厚度摺疊以具有3 mm之曲率半徑時,破裂之前的摺疊數為200,000或更多。When the base film according to the embodiment is folded to have a curvature radius of 3 mm based on a thickness of 50 μm, the number of folds before rupture is 200,000 or more.

摺疊數在摺疊薄膜以具有3 mm的曲率半徑且隨後展開時計數為一次。The number of folds was counted once when the film was folded to have a radius of curvature of 3 mm and then unfolded.

基底薄膜的摺疊數滿足上述範圍時,其可有利地應用於可摺疊顯示裝置或可撓性顯示裝置。When the folding number of the base film satisfies the above range, it can be advantageously applied to a foldable display device or a flexible display device.

根據實施例之基底薄膜具有0.01 µm至0.07 µm的表面粗糙度。特定言之,表面粗糙度可為0.01 µm至0.06 µm,但其不限於此。The base film according to the embodiment has a surface roughness of 0.01 μm to 0.07 μm. Specifically, the surface roughness may be 0.01 µm to 0.06 µm, but it is not limited thereto.

基底薄膜之表面粗糙度滿足上述範圍時,有可能獲得具有類似於玻璃之光澤度之光澤度位準的薄膜,且其減少顯示器之反射,藉此產生其增強可見度之效果。When the surface roughness of the base film satisfies the above range, it is possible to obtain a film with a gloss level similar to that of glass, and it reduces the reflection of the display, thereby producing its visibility-enhancing effect.

根據實施例之基底薄膜包含聚醯胺系聚合物,且聚醯胺系聚合物為含有醯胺重複單元之聚合物。另外,含於薄膜中的聚合物可任擇地包含醯亞胺重複單元。The base film according to the embodiment includes a polyamide-based polymer, and the polyamide-based polymer is a polymer containing amide repeating units. Additionally, the polymer contained in the film may optionally contain imine repeating units.

基底薄膜包含聚醯胺系聚合物,且聚醯胺系聚合物可藉由同時或依序使包含二胺化合物及二羰基化合物之反應物反應來製備。特定言之,聚醯胺系聚合物係藉由使二胺化合物及二羰基化合物聚合製備。The base film includes a polyamide polymer, and the polyamide polymer can be prepared by reacting reactants including a diamine compound and a dicarbonyl compound simultaneously or sequentially. Specifically, the polyamide-based polymer is prepared by polymerizing a diamine compound and a dicarbonyl compound.

或者,聚醯胺系聚合物藉由使二胺化合物、二酐化合物以及二羰基化合物聚合製備。此處,聚醯胺系聚合物包含衍生自二胺化合物及二酐化合物的聚合的醯亞胺重複單元及衍生自二胺化合物及二羰基化合物的聚合的醯胺重複單元。Alternatively, the polyamide-based polymer is prepared by polymerizing a diamine compound, a dianhydride compound, and a dicarbonyl compound. Here, the polyamide-based polymer includes an amide imine repeating unit derived from the polymerization of a diamine compound and a dianhydride compound, and a amide repeating unit derived from the polymerization of a diamine compound and a dicarbonyl compound.

根據實施例之基底薄膜包含聚醯胺系聚合物,其藉由使二胺化合物、二羰基化合物及任擇地選用之二酐化合物聚合而形成。The base film according to the embodiment includes a polyamide-based polymer, which is formed by polymerizing a diamine compound, a dicarbonyl compound, and an optional dianhydride compound.

作為一實施例,二酐化合物:二羰基化合物莫耳比為0:100至50:50、0:100至45:55、0:100至30:70、0:100至25:75或0:100至20:80。As an example, the molar ratio of dianhydride compound: dicarbonyl compound is 0:100 to 50:50, 0:100 to 45:55, 0:100 to 30:70, 0:100 to 25:75 or 0: 100 to 20:80.

若二酐化合物:二羰基化合物莫耳比在以上範圍內,則有可能獲得展現類似於玻璃之光澤度特徵之光澤度特徵且具有極佳摺疊特徵之薄膜。If the dianhydride compound:dicarbonyl compound molar ratio is within the above range, it is possible to obtain a film exhibiting gloss characteristics similar to those of glass and having excellent folding characteristics.

作為另一實施例,二酐化合物可由零、一或二種類型構成,且二羰基化合物可由一或二種類型構成。As another example, the dianhydride compound may be composed of zero, one or two types, and the dicarbonyl compound may be composed of one or two types.

二胺化合物為與二酐化合物形成醯亞胺鍵且與二羰基化合物形成醯胺鍵以藉此形成共聚物的化合物。The diamine compound is a compound that forms a amide imine bond with a dianhydride compound and a amide bond with a dicarbonyl compound, thereby forming a copolymer.

二胺化合物不受特定限制,但其可為例如含有芳族結構的芳族二胺化合物。舉例而言,二胺化合物可為由下式1表示的化合物。 [式1] The diamine compound is not particularly limited, but it may be, for example, an aromatic diamine compound containing an aromatic structure. For example, the diamine compound may be a compound represented by Formula 1 below. [Formula 1]

在式1中,E可選自經取代或未經取代之二價C 6-C 30脂族環基、經取代或未經取代之二價C 4-C 30雜脂族環基、經取代或未經取代之二價C 6-C 30芳族環基、經取代或未經取代之二價C 4-C 30雜芳族環基、經取代或未經取代之C 1-C 30伸烷基、經取代或未經取代之C 2-C 30伸烯基、經取代或未經取代之C 2-C 30伸炔基、-O-、-S-、-C(=O)-、-CH(OH)-、-S(=O) 2-、-Si(CH 3) 2-、-C(CH 3) 2-及-C(CF 3) 2-。 In Formula 1, E can be selected from substituted or unsubstituted divalent C 6 -C 30 aliphatic cyclic group, substituted or unsubstituted divalent C 4 -C 30 heteroaliphatic cyclic group, substituted Or unsubstituted divalent C 6 -C 30 aromatic ring group, substituted or unsubstituted divalent C 4 -C 30 heteroaromatic ring group, substituted or unsubstituted C 1 -C 30 extension Alkyl, substituted or unsubstituted C 2 -C 30 alkenyl, substituted or unsubstituted C 2 -C 30 alkynyl, -O-, -S-, -C(=O)- , -CH(OH)-, -S(=O) 2 -, -Si(CH 3 ) 2 -, -C(CH 3 ) 2 - and -C(CF 3 ) 2 -.

e選自1至5之整數。當e為2或更大時,E可彼此相同或不同。e is selected from an integer from 1 to 5. When e is 2 or greater, E may be the same as or different from each other.

式1中之(E) e可選自由下式1-1a至1-14a表示之基團,但其不限於此。 (E) e in Formula 1 can be selected from groups represented by the following formulas 1-1a to 1-14a, but it is not limited thereto.

特定言之,式1中的(E) e可選自由下式1-1b至1-13b表示之基團,但其不限於此。 Specifically, (E) e in Formula 1 can be selected from groups represented by the following formulas 1-1b to 1-13b, but it is not limited thereto.

更特定言之,式1中之(E) e可為由上式1-6b表示之基團或由上式1-9b表示之基團。 More specifically, (E) e in Formula 1 may be a group represented by the above formula 1-6b or a group represented by the above formula 1-9b.

在一實施例中,二胺化合物可包含具有含氟取代基之化合物或具有醚基(-O-)之化合物。In one embodiment, the diamine compound may include a compound with a fluorine-containing substituent or a compound with an ether group (-O-).

二胺化合物可由具有含氟取代基之化合物構成。在此類情況下,含氟取代基可為氟化烴基,且特定言之可為三氟甲基。但其不限於此。The diamine compound may be composed of a compound having a fluorine-containing substituent. In such cases, the fluorine-containing substituent may be a fluorinated hydrocarbyl group, and in particular may be trifluoromethyl. But it is not limited to this.

在另一實施例中,一種二胺化合物可用作二胺化合物。亦即,二胺化合物可由單一組分構成。In another embodiment, a diamine compound can be used as the diamine compound. That is, the diamine compound may be composed of a single component.

舉例而言,二胺化合物可包含由下式表示之2,2'-雙(三氟甲基)-4,4'-二胺基聯苯(TFDB),但其不限於此。 For example, the diamine compound may include 2,2'-bis(trifluoromethyl)-4,4'-diaminobiphenyl (TFDB) represented by the following formula, but it is not limited thereto.

二酐化合物具有低雙折射率值,使得其可有助於增強包含聚醯亞胺系聚合物之薄膜的光學特性,諸如透射率。聚醯亞胺系聚合物係指含有醯亞胺重複單元之聚合物。The dianhydride compound has a low birefringence value so that it can help enhance the optical properties, such as transmittance, of films containing polyimide-based polymers. Polyimide-based polymers refer to polymers containing amide-imide repeating units.

二酐化合物不受特定限制,但其可為例如含有芳族結構的芳族二酐化合物。舉例而言,芳族二酐化合物可為由下式2表示的化合物。 [式2] The dianhydride compound is not particularly limited, but it may be, for example, an aromatic dianhydride compound containing an aromatic structure. For example, the aromatic dianhydride compound may be a compound represented by Formula 2 below. [Formula 2]

在式2中,G可為選自以下之基團:經取代或未經取代之四價C 6-C 30脂族環基、經取代或未經取代之四價C 4-C 30雜脂族環基、經取代或未經取代之四價C 6-C 30芳族環基或經取代或未經取代之四價C 4-C 30雜芳族環基,其中該脂族環基、該雜脂族環基、該芳族環基或該雜芳族環基可單獨存在,可彼此稠合以形成稠環,或可藉由選自以下之鍵結基團鍵結:經取代或未經取代之C 1-C 30伸烷基、經取代或未經取代之C 2-C 30伸烯基、經取代或未經取代之C 2-C 30伸炔基、-O-、-S-、-C(=O)-、-CH(OH)-、-S(=O) 2-、-Si(CH 3) 2-、-C(CH 3) 2-及-C(CF 3) 2-。 In Formula 2, G can be a group selected from the following: substituted or unsubstituted tetravalent C 6 -C 30 aliphatic ring group, substituted or unsubstituted tetravalent C 4 -C 30 heteroaliphatic group an aliphatic ring group, a substituted or unsubstituted tetravalent C 6 -C 30 aromatic ring group or a substituted or unsubstituted tetravalent C 4 -C 30 heteroaromatic ring group, wherein the aliphatic ring group, The heteroaliphatic ring group, the aromatic ring group or the heteroaromatic ring group may exist alone, may be fused to each other to form a fused ring, or may be bonded by a bonding group selected from the following: substituted or Unsubstituted C 1 -C 30 alkylene group, substituted or unsubstituted C 2 -C 30 alkylene group, substituted or unsubstituted C 2 -C 30 alkynylene group, -O-, - S-, -C(=O)-, -CH(OH)-, -S(=O) 2 -, -Si(CH 3 ) 2 -, -C(CH 3 ) 2 - and -C(CF 3 ) 2- .

上式2中之G可選自由下式2-1a至2-9a表示之基團,但其不限於此。 G in the above formula 2 can be selected from groups represented by the following formulas 2-1a to 2-9a, but it is not limited thereto.

舉例而言,式2中的G可為由上式2-2a表示的基團、由上式2-8a表示的基團,或由上式2-9a表示的基團。For example, G in Formula 2 may be a group represented by the above formula 2-2a, a group represented by the above formula 2-8a, or a group represented by the above formula 2-9a.

在一實施例中,二酐化合物可包含具有含氟取代基之化合物、具有聯苯基之化合物或具有酮基之化合物。In one embodiment, the dianhydride compound may include a compound with a fluorine-containing substituent, a compound with a biphenyl group, or a compound with a ketone group.

二酐化合物可由具有含氟取代基之化合物構成。在此類情況下,含氟取代基可為氟化烴基,且特定言之可為三氟甲基。但其不限於此。The dianhydride compound may be composed of a compound having a fluorine-containing substituent. In such cases, the fluorine-containing substituent may be a fluorinated hydrocarbyl group, and in particular may be trifluoromethyl. But it is not limited to this.

在另一實施例中,二酐化合物可由單一組分或二種組分之混合物構成。In another embodiment, the dianhydride compound can be composed of a single component or a mixture of two components.

舉例而言,二酐化合物可包含由下式表示之2,2'-雙-(3,4-二羧基苯基)六氟丙烷二酐(6-FDA),但其不限於此。 For example, the dianhydride compound may include 2,2'-bis-(3,4-dicarboxyphenyl)hexafluoropropane dianhydride (6-FDA) represented by the following formula, but it is not limited thereto.

二胺化合物及二酐化合物可經聚合以形成聚醯胺酸。Diamine compounds and dianhydride compounds can be polymerized to form polyamide.

隨後,聚醯胺酸可經由脫水反應轉化為聚醯亞胺,且聚醯亞胺包含醯亞胺重複單元。Subsequently, the polyamide acid can be converted into a polyamide imide via a dehydration reaction, and the polyamide imide includes amide imine repeating units.

聚醯亞胺可形成由下式A表示之重複單元。 [式A] Polyimide can form repeating units represented by the following formula A. [Formula A]

在式A中,E、G以及e如上文所描述。In formula A, E, G and e are as described above.

舉例而言,聚醯亞胺可包含由下式A-1表示的重複單元,但其不限於此。 [式A-1] For example, the polyimide may include repeating units represented by the following formula A-1, but it is not limited thereto. [Formula A-1]

在式A-1中,n為1至400之整數。In Formula A-1, n is an integer from 1 to 400.

二羰基化合物不受特定限制,但其可為例如由下式3表示之化合物。 [式3] The dicarbonyl compound is not particularly limited, but it may be, for example, a compound represented by Formula 3 below. [Formula 3]

在式3中,J可選自經取代或未經取代之二價C 6-C 30脂族環基、經取代或未經取代之二價C 4-C 30雜脂族環基、經取代或未經取代之二價C 6-C 30芳族環基、經取代或未經取代之二價C 4-C 30雜芳族環基、經取代或未經取代之C 1-C 30伸烷基、經取代或未經取代之C 2-C 30伸烯基、經取代或未經取代之C 2-C 30伸炔基、-O-、-S-、-C(=O)-、-CH(OH)-、-S(=O) 2-、-Si(CH 3) 2-、-C(CH 3) 2-及-C(CF 3) 2-。 In Formula 3, J can be selected from a substituted or unsubstituted divalent C 6 -C 30 aliphatic cyclic group, a substituted or unsubstituted divalent C 4 -C 30 heteroaliphatic cyclic group, a substituted Or unsubstituted divalent C 6 -C 30 aromatic ring group, substituted or unsubstituted divalent C 4 -C 30 heteroaromatic ring group, substituted or unsubstituted C 1 -C 30 extension Alkyl, substituted or unsubstituted C 2 -C 30 alkenyl, substituted or unsubstituted C 2 -C 30 alkynyl, -O-, -S-, -C(=O)- , -CH(OH)-, -S(=O) 2 -, -Si(CH 3 ) 2 -, -C(CH 3 ) 2 - and -C(CF 3 ) 2 -.

j選自1至5之整數。當j為2或更大時,J可彼此相同或不同。j is selected from an integer from 1 to 5. When j is 2 or greater, J may be the same as or different from each other.

X為鹵素原子。特定言之,X可為F、Cl、Br、I或其類似者。更特定言之,X可為Cl,但其不限於此。X is a halogen atom. Specifically, X can be F, Cl, Br, I or the like. More specifically, X may be Cl, but it is not limited thereto.

上式3中之(J) j可選自由下式3-1a至3-14a表示之基團,但其不限於此。 (J) j in the above formula 3 can be selected from groups represented by the following formulas 3-1a to 3-14a, but it is not limited thereto.

特定言之,上式3中之(J) j可選自由下式3-1b至3-8b表示之基團,但其不限於此。 Specifically, (J) j in the above formula 3 can be selected from groups represented by the following formulas 3-1b to 3-8b, but it is not limited thereto.

更特定言之,式3中之(J) j可為由上式3-1b表示之基團、由上式3-2b表示之基團、由上式3-3b表示之基團或由上式3-8b表示之基團。 More specifically, (J) j in Formula 3 may be a group represented by the above formula 3-1b, a group represented by the above formula 3-2b, a group represented by the above formula 3-3b, or a group represented by the above formula 3-3b. The group represented by formula 3-8b.

在一實施例中,至少二種彼此不同的二羰基化合物之混合物可用作二羰基化合物。若使用二種或更多種二羰基化合物,則至少二種其中上式2中之(J) j選自由上式3-1b至3-8b表示之基團的二羰基化合物可用作二羰基化合物。 In one embodiment, a mixture of at least two dicarbonyl compounds different from each other can be used as the dicarbonyl compound. If two or more dicarbonyl compounds are used, at least two dicarbonyl compounds in which (J) j in the above formula 2 is selected from the groups represented by the above formulas 3-1b to 3-8b can be used as the dicarbonyl compound compound.

在另一實施例中,二羰基化合物可為含有芳族結構之芳族二羰基化合物。In another embodiment, the dicarbonyl compound may be an aromatic dicarbonyl compound containing an aromatic structure.

舉例而言,二羰基化合物可包含第一二羰基化合物及/或第二二羰基化合物。For example, the dicarbonyl compound may include a first dicarbonyl compound and/or a second dicarbonyl compound.

第一二羰基化合物及第二二羰基化合物可分別為芳族二羰基化合物。The first dicarbonyl compound and the second dicarbonyl compound may respectively be aromatic dicarbonyl compounds.

第一二羰基化合物及第二二羰基化合物可為彼此不同之化合物。The first dicarbonyl compound and the second dicarbonyl compound may be different compounds from each other.

舉例而言,第一二羰基化合物及第二二羰基化合物可為彼此不同的芳族二羰基化合物,但其不限於此。For example, the first dicarbonyl compound and the second dicarbonyl compound may be different aromatic dicarbonyl compounds from each other, but they are not limited thereto.

若第一二羰基化合物及第二二羰基化合物分別為芳族二羰基化合物,則其包含苯環。因此,其可有助於改良包含由此產生之聚醯胺系聚合物之薄膜的機械特性,諸如表面硬度及抗張強度。If the first dicarbonyl compound and the second dicarbonyl compound are respectively aromatic dicarbonyl compounds, they contain a benzene ring. Therefore, it may help to improve the mechanical properties of films containing the resulting polyamide-based polymers, such as surface hardness and tensile strength.

二羰基化合物可包含如由下式表示的對酞醯氯(TPC)、1,1'-聯苯-4,4'-二羰基二氯(BPDC)、異酞醯氯(IPC)或其組合。但其不限於此。 The dicarbonyl compound may include terephthaloyl chloride (TPC), 1,1'-biphenyl-4,4'-dicarbonyldichloride (BPDC), isophthaloyl chloride (IPC), or combinations thereof as represented by the following formula . But it is not limited to this.

舉例而言,第一二羰基化合物可包含BPDC,且第二二羰基化合物可包含TPC,但其不限於此。For example, the first dicarbonyl compound may include BPDC, and the second dicarbonyl compound may include TPC, but it is not limited thereto.

特定言之,若以恰當組合BPDC用作第一二羰基化合物且TPC用作第二二羰基化合物,則包含由此產生之聚醯胺系聚合物之薄膜可具有高抗氧化性。Specifically, if BPDC is used as the first dicarbonyl compound and TPC is used as the second dicarbonyl compound in an appropriate combination, a film including the resulting polyamide-based polymer can have high oxidation resistance.

或者,第一二羰基化合物可包含IPC,且第二二羰基化合物可包含TPC,但其不限於此。Alternatively, the first dicarbonyl compound may include IPC, and the second dicarbonyl compound may include TPC, but it is not limited thereto.

若以恰當組合IPC用作第一二羰基化合物且TPC用作第二二羰基化合物,則包含由此產生之聚醯胺系聚合物之薄膜不僅可具有高抗氧化性,且亦為經濟的,因為成本可降低。If IPC is used as the first dicarbonyl compound and TPC is used as the second dicarbonyl compound in an appropriate combination, a film including the resulting polyamide-based polymer can not only have high oxidation resistance, but also be economical, Because the cost can be reduced.

二胺化合物及二羰基化合物可經聚合以形成由下式B表示之重複單元。 [式B] The diamine compound and the dicarbonyl compound may be polymerized to form a repeating unit represented by Formula B below. [Formula B]

在式B中,E、J、e以及j如上文所描述。In Formula B, E, J, e, and j are as described above.

舉例而言,二胺化合物及二羰基化合物可經聚合以形成由下式B-1及B-2表示之醯胺重複單元。For example, diamine compounds and dicarbonyl compounds may be polymerized to form amide repeating units represented by the following formulas B-1 and B-2.

或者,二胺化合物及二羰基化合物可經聚合以形成由下式B-2及B-3表示之醯胺重複單元。 [式B-1] Alternatively, the diamine compound and the dicarbonyl compound may be polymerized to form amide repeating units represented by the following formulas B-2 and B-3. [Formula B-1]

在式B-1中,x為1至400之整數。 [式B-2] In Formula B-1, x is an integer from 1 to 400. [Formula B-2]

在式B-2中,y為1至400之整數。 [式B-3] In formula B-2, y is an integer from 1 to 400. [Formula B-3]

在式B-3中,y為1至400之整數。 根據實施例,聚醯胺系聚合物可包含由下式A表示之重複單元及由下式B表示之重複單元: [式A] [式B] In Formula B-3, y is an integer from 1 to 400. According to embodiments, the polyamide-based polymer may include a repeating unit represented by the following formula A and a repeating unit represented by the following formula B: [Formula A] [Formula B]

在式A及B中,E及J各自獨立地選自經取代或未經取代之二價C 6-C 30脂族環基、經取代或未經取代之二價C 4-C 30雜脂族環基、經取代或未經取代之二價C 6-C 30芳族環基、經取代或未經取代之二價C 4-C 30雜芳族環基、經取代或未經取代之C 1-C 30伸烷基、經取代或未經取代之C 2-C 30伸烯基、經取代或未經取代之C 2-C 30伸炔基、-O-、-S-、-C(=O)-、-CH(OH)-、-S(=O) 2-、-Si(CH 3) 2-、-C(CH 3) 2-及-C(CF 3) 2-, e及j各自獨立地選自1至5之整數, 當e為2或更大時,則二個或更多個E彼此相同或不同, 當j為2或更大時,則二個或更多個J彼此相同或不同, G為經取代或未經取代之四價C 6-C 30脂族環基、經取代或未經取代之四價C 4-C 30雜脂族環基、經取代或未經取代之四價C 6-C 30芳族環基或經取代或未經取代之四價C 4-C 30雜芳族環基,其中該脂族環基、該雜脂族環基、該芳族環基或該雜芳族環基單獨存在,彼此稠合以形成稠環,或藉由選自以下之鍵結基團鍵結:經取代或未經取代之C 1-C 30伸烷基、經取代或未經取代之C 2-C 30伸烯基、經取代或未經取代之C 2-C 30伸炔基、-O-、-S-、-C(=O)-、-CH(OH)-、-S(=O) 2-、-Si(CH 3) 2-、-C(CH 3) 2-及-C(CF 3) 2-。 In formulas A and B, E and J are each independently selected from substituted or unsubstituted divalent C 6 -C 30 aliphatic cyclic groups, substituted or unsubstituted divalent C 4 -C 30 heteroaliphatic groups Aromatic ring group, substituted or unsubstituted divalent C 6 -C 30 aromatic ring group, substituted or unsubstituted divalent C 4 -C 30 heteroaromatic ring group, substituted or unsubstituted C 1 -C 30 alkylene group, substituted or unsubstituted C 2 -C 30 alkenyl group, substituted or unsubstituted C 2 -C 30 alkynylene group, -O-, -S-, - C(=O)-, -CH(OH)-, -S(=O) 2 -, -Si(CH 3 ) 2 -, -C(CH 3 ) 2 - and -C(CF 3 ) 2 -, e and j are each independently selected from an integer from 1 to 5. When e is 2 or greater, then two or more E's are the same as or different from each other. When j is 2 or greater, then two or more Multiple Js are the same or different from each other, G is a substituted or unsubstituted tetravalent C 6 -C 30 aliphatic cyclic group, a substituted or unsubstituted tetravalent C 4 -C 30 heteroaliphatic cyclic group, A substituted or unsubstituted tetravalent C 6 -C 30 aromatic ring group or a substituted or unsubstituted tetravalent C 4 -C 30 heteroaromatic ring group, wherein the aliphatic ring group, the heteroaliphatic ring The group, the aromatic ring group or the heteroaromatic ring group exist alone, are fused with each other to form a fused ring, or are bonded by a bonding group selected from the following: substituted or unsubstituted C 1 -C 30 alkylene group, substituted or unsubstituted C 2 -C 30 alkenyl group, substituted or unsubstituted C 2 -C 30 alkynylene group, -O-, -S-, -C(=O )-, -CH(OH)-, -S(=O) 2 -, -Si(CH 3 ) 2 -, -C(CH 3 ) 2 -, and -C(CF 3 ) 2 -.

在聚醯胺系聚合物中,由上式A表示之重複單元與由上式B表示之重複單元之莫耳比可為0:100至50:50、0:100至45:55、0:100至30:70、0:100至25:75或0:100至20:80,但其不限於此。In the polyamide-based polymer, the molar ratio of the repeating unit represented by the above formula A and the repeating unit represented by the above formula B may be 0:100 to 50:50, 0:100 to 45:55, 0: 100 to 30:70, 0:100 to 25:75 or 0:100 to 20:80, but it is not limited to these.

若由式A表示之重複單元與由式B表示之重複單元之莫耳比在上述範圍內,則有可能獲得在主視角下展現類似於玻璃之光澤度特徵之光澤度特徵,同時在廣視角下表明高光澤度位準,由此產生隱私保護效果,具有極佳摺疊特徵,且在所有機械特性及光學特性中皆極佳的薄膜。If the molar ratio of the repeating unit represented by the formula A and the repeating unit represented by the formula B is within the above range, it is possible to obtain gloss characteristics that exhibit gloss characteristics similar to those of glass at a main viewing angle while at a wide viewing angle. The following shows a high gloss level, resulting in a privacy-protecting effect, a film with excellent folding characteristics and excellent in all mechanical and optical properties.

基底薄膜具有1%或更小的混濁度。舉例而言,混濁度可為0.8%或更小、0.6%或更小、0.5%或更小或0.4%或更小,但其不限於此。The base film has a haze of 1% or less. For example, the turbidity may be 0.8% or less, 0.6% or less, 0.5% or less, or 0.4% or less, but is not limited thereto.

基底薄膜具有80%或更大的透射率。舉例而言,透射率可為82%或更大、85%或更大、88%或更大、89%或更大、80%至99%、88%至99%或89%至99%,但其不限於此。The base film has a transmittance of 80% or greater. For example, the transmittance may be 82% or greater, 85% or greater, 88% or greater, 89% or greater, 80% to 99%, 88% to 99%, or 89% to 99%, But it is not limited to this.

基底薄膜具有5或更小的黃色指數。舉例而言,黃色指數可為4或更小、3.5或更小,或3或更小,但其不限於此。The base film has a yellowness index of 5 or less. For example, the yellowness index may be 4 or less, 3.5 or less, or 3 or less, but it is not limited thereto.

基底薄膜具有5.0 GPa或更大的模數。特定言之,模數可為5.5 GPa或更大、6.0 GPa或更大、6.5 GPa或更大或7.0 GPa或更大,但其不限於此。The base film has a modulus of 5.0 GPa or greater. Specifically, the modulus may be 5.5 GPa or greater, 6.0 GPa or greater, 6.5 GPa or greater, or 7.0 GPa or greater, but is not limited thereto.

基底薄膜具有0.4 kgf/µm或更大之抗壓強度。特定言之,抗壓強度可為0.45 kgf/µm或更大,或0.46 kgf/µm或更大,但其不限於此。The base film has a compressive strength of 0.4 kgf/µm or greater. Specifically, the compressive strength may be 0.45 kgf/µm or greater, or 0.46 kgf/µm or greater, but it is not limited thereto.

當在UTM壓縮模式下使用2.5 mm球形尖端以10 mm/min的速度對基底薄膜進行穿孔時,包括裂紋的穿孔的最大直徑(mm)為60 mm或更小。特定言之,穿孔之最大直徑可為5至60 mm、10至60 mm、15至60 mm、20至60 mm、25至60 mm或25至58 mm,但其不限於此。When perforating the base film using a 2.5 mm spherical tip in UTM compression mode at a speed of 10 mm/min, the maximum diameter (mm) of the perforation including cracks is 60 mm or less. Specifically, the maximum diameter of the perforation may be 5 to 60 mm, 10 to 60 mm, 15 to 60 mm, 20 to 60 mm, 25 to 60 mm, or 25 to 58 mm, but is not limited thereto.

基底薄膜具有HB或更高之表面硬度。特定言之,表面硬度可為H或更高,或2H或更高,但其不限於此。The base film has a surface hardness of HB or higher. Specifically, the surface hardness may be H or higher, or 2H or higher, but it is not limited thereto.

基底薄膜之抗張強度為15 kgf/mm 2或更大。特定言之,抗張強度可為18 kgf/mm 2或更大、20 kgf/mm 2或更大、21 kgf/mm 2或更大或22 kgf/mm 2或更大,但其不限於此。 The tensile strength of the base film is 15 kgf/ mm2 or greater. Specifically, the tensile strength may be 18 kgf/ mm or greater, 20 kgf/mm or greater, 21 kgf/mm or greater, or 22 kgf/mm or greater, but is not limited thereto. .

基底薄膜之伸長率為15%或更大。特定言之,伸長率可為16%或更大、17%或更大或17.5%或更大,但其不限於此。The elongation of the base film is 15% or greater. Specifically, the elongation may be 16% or greater, 17% or greater, or 17.5% or greater, but it is not limited thereto.

根據實施例的基底薄膜在低混濁度、低黃色指數以及高透射率,以及類似於玻璃的光澤度特徵的低光澤度特徵方面具有極佳光學特性,且可確保極佳摺疊特徵。因此,其產生增強顯示器之美觀性感覺及可見度的效果。The base film according to the embodiment has excellent optical properties in terms of low haze, low yellowness index and high transmittance, as well as low gloss characteristics similar to the gloss characteristics of glass, and can ensure excellent folding characteristics. Therefore, it has the effect of enhancing the aesthetics and visibility of the display.

如上文所描述之基底薄膜之物理特性係基於40 µm至60 µm之厚度。舉例而言,基底薄膜的物理特性係基於50 µm之厚度。The physical properties of the base film as described above are based on a thickness of 40 µm to 60 µm. For example, the physical properties of the base film are based on a thickness of 50 µm.

如上文所描述的基底薄膜的組分及特性上的特徵可彼此組合。The compositional and characteristic features of the base film as described above can be combined with each other.

另外,如上文所描述的基底薄膜的特性為藉由組合構成基底薄膜的組分的化學及物理特性,以及如下文所描述的用於製備基底薄膜的製程的各步驟中的條件實現的結果。In addition, the properties of the base film as described above are the result of a combination of the chemical and physical properties of the components constituting the base film, and the conditions in each step of the process for preparing the base film as described below.

舉例而言,構成基底薄膜之組分之組成及含量、添加劑之類型及含量、表面粗糙度之範圍、薄膜製備製程中之熱處理及冷卻溫度條件及其類似者均組合以達成所要的光澤度位準。 製備基底薄膜 (100) 之製程 For example, the composition and content of the components constituting the base film, the type and content of the additives, the range of surface roughness, the heat treatment and cooling temperature conditions in the film preparation process and the like are all combined to achieve the desired gloss level. Accurate. Process for preparing base film (100)

一實施例提供一種製備基底薄膜之製程。One embodiment provides a process for preparing a base film.

根據實施例製備基底薄膜之製程包含:在有機溶劑中製備聚醯胺系聚合物溶液;將聚合物溶液轉移至槽;將槽中之聚合物溶液澆鑄於帶上且隨後將其乾燥以製備凝膠薄片;在凝膠薄片移動時熱處理凝膠薄片以製備固化薄膜;及在固化薄膜移動時冷卻固化薄膜。The process of preparing the base film according to the embodiment includes: preparing a polyamide polymer solution in an organic solvent; transferring the polymer solution to a tank; casting the polymer solution in the tank onto a belt and then drying it to prepare a gel. glue sheet; heat treating the gel sheet while the gel sheet is moving to prepare a cured film; and cooling the cured film while the cured film is moving.

參見圖2,製備基底薄膜之製程包含:在聚合設備中在有機溶劑中同時或依序混合二胺化合物及二羰基化合物或二胺化合物、二酐化合物以及二羰基化合物,且使混合物反應以製備聚合物溶液(S100);將聚合物溶液饋入槽(S200);用惰性氣體吹掃(S300);將槽中之聚合物溶液澆鑄於帶上且隨後將其乾燥以製備凝膠薄片(S400);在凝膠薄片移動時熱處理凝膠薄片以製備固化薄膜(S500);在固化薄膜移動時冷卻固化薄膜(S600);及使用捲繞器捲繞經冷卻之固化薄膜(S700)。Referring to Figure 2, a process for preparing a base film includes: simultaneously or sequentially mixing a diamine compound and a dicarbonyl compound or a diamine compound, a dianhydride compound and a dicarbonyl compound in an organic solvent in a polymerization device, and reacting the mixture to prepare Polymer solution (S100); Feed the polymer solution into the tank (S200); Purge with inert gas (S300); Cast the polymer solution in the tank onto a belt and subsequently dry it to prepare gel sheets (S400 ); heat treating the gel sheet while the gel sheet is moving to prepare a cured film (S500); cooling the cured film while the cured film is moving (S600); and winding the cooled cured film using a winder (S700).

基底薄膜為包含聚醯胺系聚合物作為主要組分之薄膜。聚醯胺系聚合物為包含醯胺重複單元作為結構單元之聚合物。另外,聚醯胺系薄膜可包含醯亞胺重複單元。The base film is a film containing polyamide polymer as a main component. Polyamide-based polymers are polymers containing amide repeating units as structural units. In addition, the polyamide-based film may contain amide imine repeating units.

在用於製備基底薄膜之製程中,藉由在聚合設備中在有機溶劑中同時或依序混合二胺化合物及二羰基化合物或二胺化合物、二酐化合物以及二羰基化合物,且使混合物反應製備用於製備聚醯胺系聚合物之聚合物溶液(S100)。In a process for preparing a base film, a diamine compound and a dicarbonyl compound or a diamine compound, a dianhydride compound and a dicarbonyl compound are mixed simultaneously or sequentially in an organic solvent in a polymerization device, and the mixture is reacted. Used to prepare polymer solutions (S100) of polyamide polymers.

在一實施例中,可藉由在有機溶劑中同時使二胺化合物及二羰基化合物或二胺化合物、二酐化合物以及二羰基化合物混合及反應來製備聚合物溶液。In one embodiment, the polymer solution can be prepared by simultaneously mixing and reacting a diamine compound and a dicarbonyl compound or a diamine compound, a dianhydride compound and a dicarbonyl compound in an organic solvent.

在另一實施例中,製備聚合物溶液之步驟可包含在溶劑中使二胺化合物及二羰基化合物混合及反應以產生聚醯胺(PA)溶液。聚醯胺溶液為包含具有醯胺重複單元之聚合物的溶液。In another embodiment, the step of preparing the polymer solution may include mixing and reacting a diamine compound and a dicarbonyl compound in a solvent to produce a polyamide (PA) solution. A polyamide solution is a solution containing a polymer having amide repeating units.

在再一實施例中,製備聚合物溶液的步驟可包含首先在溶劑中使二胺化合物及二酐化合物混合及反應以產生聚醯胺酸(PAA)溶液;以及其次使聚醯胺酸(PAA)溶液及二羰基化合物混合及反應以形成醯胺鍵及醯亞胺鍵。聚醯胺酸溶液為包含聚醯胺酸的溶液。In yet another embodiment, the step of preparing the polymer solution may include first mixing and reacting a diamine compound and a dianhydride compound in a solvent to produce a polyamic acid (PAA) solution; and secondly, making the polyamic acid (PAA) solution ) solution and the dicarbonyl compound are mixed and reacted to form amide bonds and amide imine bonds. The polyamide solution is a solution containing polyamide.

或者,製備聚合物溶液之步驟可包含首先在溶劑中使二胺化合物及二酐化合物混合及反應以產生聚醯胺酸溶液;使聚醯胺酸溶液脫水以產生聚醯亞胺(PI)溶液;以及其次使聚醯亞胺(PI)溶液與二羰基化合物混合及反應以進一步形成醯胺鍵。聚醯亞胺溶液為包含具有醯亞胺重複單元之聚合物的溶液。Alternatively, the step of preparing the polymer solution may include first mixing and reacting a diamine compound and a dianhydride compound in a solvent to produce a polyamic acid solution; dehydrating the polyamic acid solution to produce a polyimide (PI) solution. ; and secondly, the polyamide (PI) solution and the dicarbonyl compound are mixed and reacted to further form an amide bond. A polyimide solution is a solution containing a polymer having amide repeating units.

在再一實施例中,製備聚合物溶液的步驟可包含首先在溶劑中使二胺化合物及二羰基化合物混合及反應以產生聚醯胺(PA)溶液;以及其次使聚醯胺(PA)溶液與二酐化合物混合及反應以進一步形成醯亞胺鍵。聚醯胺溶液為包含具有醯胺重複單元之聚合物的溶液。In yet another embodiment, the step of preparing the polymer solution may include first mixing and reacting a diamine compound and a dicarbonyl compound in a solvent to produce a polyamide (PA) solution; and secondly, making the polyamide (PA) solution Mix and react with the dianhydride compound to further form amide imine bonds. A polyamide solution is a solution containing a polymer having amide repeating units.

由此製備之聚合物溶液可為包含含有選自由以下組成之群的至少一者的聚合物的溶液:聚醯胺酸(PAA)重複單元、聚醯胺(PA)重複單元以及聚醯亞胺(PI)重複單元。The polymer solution thus prepared may be a solution containing a polymer containing at least one selected from the group consisting of polyamide acid (PAA) repeating units, polyamide (PA) repeating units, and polyimide. (PI) Repeating unit.

聚合物溶液中含有的聚合物包含衍生自二胺化合物與二羰基化合物之聚合的醯胺重複單元。The polymer contained in the polymer solution contains amide repeating units derived from the polymerization of a diamine compound and a dicarbonyl compound.

或者,聚合物溶液中含有的聚合物包含衍生自二胺化合物及二酐化合物的聚合的醯亞胺重複單元及衍生自二胺化合物及二羰基化合物的聚合的醯胺重複單元。Alternatively, the polymer contained in the polymer solution includes a polymerized amide imine repeating unit derived from a diamine compound and a dianhydride compound and a polymerized amide repeating unit derived from a diamine compound and a dicarbonyl compound.

聚合物溶液中所含固體之含量可為10重量%至30重量%。或者,第二聚合物溶液中所含之固體含量可為15重量%至25重量%,但其不限於此。The polymer solution may contain solids in an amount ranging from 10% to 30% by weight. Alternatively, the solid content contained in the second polymer solution may be 15% to 25% by weight, but is not limited thereto.

若聚合物溶液中所含之固體含量在上述範圍內,則基底薄膜可有效地在擠出及澆鑄步驟中產生。另外,由此產生之基底薄膜可具有就改良模數及其類似者而言的機械特性,及就低黃色指數及其類似者而言的光學特性。If the solid content contained in the polymer solution is within the above range, the base film can be effectively produced in the extrusion and casting steps. Additionally, the resulting base film may have mechanical properties in terms of improved modulus and the like, and optical properties in terms of a low yellow index and the like.

在一實施例中,製備聚合物溶液之步驟可進一步包含引入催化劑。In one embodiment, the step of preparing the polymer solution may further include introducing a catalyst.

此處,催化劑可包含選自由以下組成之群的至少一者:β甲吡啶、乙酸酐、異喹啉(IQ)及吡啶系化合物,但其不限於此。Here, the catalyst may include at least one selected from the group consisting of β-methylpyridine, acetic anhydride, isoquinoline (IQ), and a pyridine-based compound, but it is not limited thereto.

可以1莫耳聚醯胺酸計0.01至0.4莫耳當量之量添加催化劑,但其不限於此。The catalyst may be added in an amount of 0.01 to 0.4 molar equivalent based on 1 mole of polyamic acid, but it is not limited thereto.

催化劑之進一步添加可加快反應速率且增強重複單元結構之間或重複單元結構內之化學鍵結力。Further addition of catalyst can speed up the reaction rate and enhance the chemical bonding force between or within the repeating unit structures.

在另一實施例中,製備聚合物溶液之步驟可進一步包含調節聚合物溶液之黏度。In another embodiment, the step of preparing the polymer solution may further include adjusting the viscosity of the polymer solution.

特定言之,製備聚合物溶液之步驟可包含(a)在有機溶劑中使二胺化合物及二羰基化合物或二胺化合物、二酐化合物以及二羰基化合物同時或依序混合及反應以製備第一聚合物溶液;(b)量測第一聚合物溶液之黏度且評價是否已達至目標黏度;及(c)若第一聚合物溶液之黏度未達目標黏度,則進一步添加二羰基化合物以製備具有目標黏度之第二聚合物溶液。Specifically, the step of preparing the polymer solution may include (a) mixing and reacting a diamine compound and a dicarbonyl compound or a diamine compound, a dianhydride compound and a dicarbonyl compound simultaneously or sequentially in an organic solvent to prepare the first Polymer solution; (b) measure the viscosity of the first polymer solution and evaluate whether the target viscosity has been reached; and (c) if the viscosity of the first polymer solution does not reach the target viscosity, further add a dicarbonyl compound to prepare Second polymer solution with target viscosity.

目標黏度在室溫下可為100,000 cps至500,000 cps。特定言之,目標黏度可為100,000 cps至400,000 cps、100,000 cps至350,000 cps、100,000 cps至300,000 cps、150,000 cps至300,000 cps或150,000 cps至250,000 cps,但其不限於此。Target viscosity can be 100,000 cps to 500,000 cps at room temperature. Specifically, the target viscosity may be 100,000 cps to 400,000 cps, 100,000 cps to 350,000 cps, 100,000 cps to 300,000 cps, 150,000 cps to 300,000 cps, or 150,000 cps to 250,000 cps, but is not limited thereto.

在製備第一聚合物溶液及第二聚合物溶液之步驟中,聚合物溶液之黏度彼此不同。舉例而言,第二聚合物溶液之黏度高於第一聚合物溶液之黏度。In the step of preparing the first polymer solution and the second polymer solution, the viscosities of the polymer solutions are different from each other. For example, the viscosity of the second polymer solution is higher than the viscosity of the first polymer solution.

在製備第一聚合物溶液及第二聚合物溶液之步驟中,攪拌速度彼此不同。舉例而言,製備第一聚合物溶液時的攪拌速度比製備第二聚合物溶液時的攪拌速度快。In the steps of preparing the first polymer solution and the second polymer solution, the stirring speeds are different from each other. For example, the stirring speed when preparing the first polymer solution is faster than the stirring speed when preparing the second polymer solution.

在再一實施例中,製備聚合物溶液之步驟可進一步包含調節聚合物溶液之pH。在此步驟中,可將聚合物溶液之pH調節至4至7,例如4.5至7。In yet another embodiment, the step of preparing the polymer solution may further comprise adjusting the pH of the polymer solution. In this step, the pH of the polymer solution can be adjusted to 4 to 7, such as 4.5 to 7.

可藉由添加pH調節劑來調節聚合物溶液之pH。pH調節劑不受特定限制且可包括例如胺系化合物,諸如烷氧基胺、烷基胺及烷醇胺。The pH of the polymer solution can be adjusted by adding a pH adjuster. The pH adjuster is not particularly limited and may include, for example, amine-based compounds such as alkoxyamines, alkylamines, and alkanolamines.

若將聚合物溶液之pH調節至以上範圍,則有可能防止在後續製程中對設備之損壞,防止在由聚合物溶液產生之薄膜中出現缺陷,且就黃色指數及模數而言達成所要光學特性及機械特性。If the pH of the polymer solution is adjusted to the above range, it is possible to prevent damage to the equipment in subsequent processes, prevent the occurrence of defects in films produced from the polymer solution, and achieve the desired optical properties in terms of yellow index and modulus. properties and mechanical properties.

pH調節劑可以聚合物溶液中單體之總莫耳數計0.1莫耳%至10莫耳%之量採用。The pH adjuster may be used in an amount of 0.1 mole % to 10 mole % based on the total moles of monomers in the polymer solution.

在另一實施例中,製備聚合物溶液之步驟可進一步包含用惰性氣體吹掃。用惰性氣體吹掃之步驟可移除水分,減少雜質,增加反應產率,且賦予最後產生之薄膜極佳表面外觀及機械特性。In another embodiment, the step of preparing the polymer solution may further comprise purging with an inert gas. The step of purging with inert gas removes moisture, reduces impurities, increases reaction yield, and gives the final film excellent surface appearance and mechanical properties.

惰性氣體可為選自由以下組成之群的至少一者:氮氣、氦氣(He)、氖氣(Ne)、氬氣(Ar)、氪氣(Kr)、氙氣(Xe)及氡氣(Rn),但其不限於此。特定言之,惰性氣體可為氮氣。The inert gas may be at least one selected from the group consisting of: nitrogen, helium (He), neon (Ne), argon (Ar), krypton (Kr), xenon (Xe), and radon (Rn) ), but it is not limited to this. Specifically, the inert gas may be nitrogen.

在另一實施例中,用於製備基底薄膜之製程可進一步包含添加消光劑。In another embodiment, the process for preparing the base film may further include adding a matting agent.

添加消光劑之步驟可在製備聚合物溶液之前進行或可在製備聚合物溶液之後進行。亦即,首先將消光劑溶解於有機溶劑中,且隨後使混合物反應以製備聚合物。或者,混合物首先於有機溶劑中反應,且隨後將消光劑添加至有機溶劑中。The step of adding the matting agent may be performed before preparing the polymer solution or may be performed after preparing the polymer solution. That is, the matting agent is first dissolved in an organic solvent, and then the mixture is reacted to prepare a polymer. Alternatively, the mixture is first reacted in an organic solvent, and then the matting agent is added to the organic solvent.

特定言之,製程可包含製備聚醯胺系聚合物溶液且隨後將消光劑添加至有機溶劑。Specifically, the process may include preparing a polyamide-based polymer solution and then adding a matting agent to the organic solvent.

因此,有可能降低光澤度,由此獲得具有類似於玻璃之光澤度之光澤度位準的薄膜。此外,有可能在薄膜製備期間藉由增強表面粗糙度及捲繞性來增強改良滑動時產生的刮擦的效果,及達成類似於玻璃之美觀性感覺之美觀性感覺。此外,其產生增強顯示器之可見度的效果。Therefore, it is possible to reduce the gloss, thereby obtaining a film having a gloss level similar to that of glass. In addition, it is possible to enhance the effect of improving scratches during sliding by enhancing surface roughness and windability during film preparation, and achieve an aesthetic feel similar to that of glass. Furthermore, it has the effect of enhancing the visibility of the display.

關於消光劑之類型及含量之細節如上文所描述。Details regarding the type and content of matting agent are as described above.

用於製備聚合物溶液的二酐化合物:二羰基化合物莫耳比可為0:100至50:50,例如0:100至45:55、0:100至30:70、0:100至25:75或0:100至20:80。以以上莫耳比採用二酐化合物及二羰基化合物時,對達成由聚合物溶液製備的基底薄膜的機械特性及光學特性,尤其光澤度的所要位準為有利的。The dianhydride compound: dicarbonyl compound molar ratio used to prepare the polymer solution can be 0:100 to 50:50, such as 0:100 to 45:55, 0:100 to 30:70, 0:100 to 25: 75 or 0:100 to 20:80. When the dianhydride compound and the dicarbonyl compound are used at the above molar ratio, it is advantageous to achieve the desired level of mechanical properties and optical properties, especially gloss, of the base film prepared from the polymer solution.

若不滿足以上範圍,則諸如摺疊數及硬度之機械特性或諸如透明度之光學特性可劣化。If the above range is not satisfied, mechanical properties such as fold number and hardness or optical properties such as transparency may be deteriorated.

關於二胺化合物、二酐化合物以及二羰基化合物的細節如上文所描述。Details regarding the diamine compound, dianhydride compound and dicarbonyl compound are as described above.

在一實施例中,有機溶劑可為選自由以下組成之群的至少一者:二甲基甲醯胺(DMF)、二甲基乙醯胺(DMAc)、N-甲基-2-吡咯啶酮(NMP)、間甲酚、四氫呋喃(THF)以及氯仿。聚合物溶液中所採用的有機溶劑可為二甲基乙醯胺(DMAc),但其不限於此。In one embodiment, the organic solvent may be at least one selected from the group consisting of: dimethylformamide (DMF), dimethylacetamide (DMAc), N-methyl-2-pyrrolidine ketone (NMP), m-cresol, tetrahydrofuran (THF) and chloroform. The organic solvent used in the polymer solution may be dimethylacetamide (DMAc), but it is not limited thereto.

接下來,在製備聚合物溶液之步驟之後,將聚合物溶液轉移至槽(S200)。Next, after the step of preparing the polymer solution, the polymer solution is transferred to the tank (S200).

圖3示意地示出用於製備根據實施例的基底薄膜的製程設施。參見圖3,在聚合設備(10)中製備如上文所描述之聚合物溶液,且將由此產生之聚合物溶液轉移至槽(20)且儲存於其中。Figure 3 schematically shows a process facility for preparing a base film according to an embodiment. Referring to Figure 3, a polymer solution as described above is prepared in a polymerization apparatus (10) and the polymer solution thus produced is transferred to a tank (20) and stored therein.

此處,一旦已製備聚合物溶液,則進行轉移聚合物溶液至槽之步驟而無任何額外步驟。特定言之,在聚合設備中製備之聚合物溶液轉移至且儲存於槽中而無任何個別沈澱及再溶解步驟以移除雜質。在習知製程中,為了移除在聚合物溶液之製備期間產生的雜質,諸如鹽酸(HCl),由此製備之聚合物溶液經由個別步驟純化以移除雜質,且純化之聚合物溶液隨後再溶解於溶劑中。然而,在此情況下,存在在移除雜質之步驟中活性成分損失增加的問題,引起產率下降。Here, once the polymer solution has been prepared, the step of transferring the polymer solution to the tank is performed without any additional steps. In particular, the polymer solution prepared in the polymerization equipment is transferred to and stored in a tank without any individual precipitation and redissolution steps to remove impurities. In a conventional process, in order to remove impurities, such as hydrochloric acid (HCl), generated during the preparation of a polymer solution, the polymer solution thus prepared is purified through individual steps to remove the impurities, and the purified polymer solution is then Dissolve in solvent. However, in this case, there is a problem of increased loss of active ingredients in the step of removing impurities, causing a decrease in yield.

因此,根據實施例之製備製程最終使製備聚合物溶液之步驟中產生的雜質的量最小化或恰當地控制後續步驟中之雜質,即使仍存在一定量之雜質,以免最終薄膜的物理特性劣化。因此,製程具有無需個別沈澱或再溶解步驟產生薄膜之優勢。Therefore, the preparation process according to the embodiment ultimately minimizes the amount of impurities generated in the step of preparing the polymer solution or appropriately controls the impurities in subsequent steps, even if a certain amount of impurities still exists, so as to avoid deterioration of the physical properties of the final film. Therefore, the process has the advantage of producing thin films without the need for individual precipitation or redissolution steps.

槽(20)為用於在將聚合物溶液形成為薄膜之前儲存聚合物溶液之場所,且其內部溫度可為-20℃至20℃。The tank (20) is a place for storing the polymer solution before forming the polymer solution into a film, and its internal temperature may be -20°C to 20°C.

特定言之,內部溫度可為-20℃至10℃、-20℃至5℃、-20℃至0℃或0℃至10℃,但其不限於此。Specifically, the internal temperature may be -20°C to 10°C, -20°C to 5°C, -20°C to 0°C, or 0°C to 10°C, but it is not limited thereto.

若槽(20)之內部溫度控制至以上範圍,則有可能防止聚合物溶液在儲存期間劣化,且有可能降低水分含量從而防止自其產生之薄膜缺陷。If the internal temperature of the tank (20) is controlled to the above range, it is possible to prevent the polymer solution from deteriorating during storage, and to reduce the moisture content to prevent film defects arising therefrom.

製備基底薄膜之製程可進一步包含對轉移至槽(20)之聚合物溶液進行真空除氣。The process of preparing the base film may further include vacuum degassing the polymer solution transferred to the tank (20).

真空脫氣可在將槽之內部壓力減壓至0.1巴至0.7巴之後進行30分鐘至3小時。此等條件下之真空脫氣可減少聚合物溶液中之氣泡。因此,有可能防止自其產生之薄膜表面缺陷且實現極佳光學特性,諸如混濁度。Vacuum degassing can be performed for 30 minutes to 3 hours after reducing the internal pressure of the tank to 0.1 bar to 0.7 bar. Vacuum degassing under these conditions can reduce bubbles in the polymer solution. Therefore, it is possible to prevent film surface defects arising therefrom and achieve excellent optical properties such as haze.

此外,製備基底薄膜之製程可進一步包含用惰性氣體吹掃轉移至槽(20)之聚合物溶液(S300)。In addition, the process of preparing the base film may further include purging the polymer solution transferred to the tank (20) with an inert gas (S300).

特定言之,吹掃係藉由用惰性氣體以1 atm至2 atm之內部壓力吹掃槽進行。此等條件下之惰性氣體吹掃可移除聚合物溶液中之水分,減少雜質,從而增加反應產率,且實現極佳光學特性,諸如混濁度,及機械特性。Specifically, purging is performed by purging the tank with an inert gas at an internal pressure of 1 atm to 2 atm. Inert gas purging under these conditions removes moisture from the polymer solution, reduces impurities, thereby increasing reaction yield and achieving excellent optical properties, such as turbidity, and mechanical properties.

惰性氣體可為選自由以下組成之群的至少一者:氮氣、氦氣(He)、氖氣(Ne)、氬氣(Ar)、氪氣(Kr)、氙氣(Xe)及氡氣(Rn),但其不限於此。特定言之,惰性氣體可為氮氣。The inert gas may be at least one selected from the group consisting of: nitrogen, helium (He), neon (Ne), argon (Ar), krypton (Kr), xenon (Xe), and radon (Rn) ), but it is not limited to this. Specifically, the inert gas may be nitrogen.

真空脫氣之步驟及用惰性氣體吹掃槽之步驟分別以個別步驟進行。The steps of vacuum degassing and purging the tank with inert gas are performed in separate steps.

舉例而言,可進行真空脫氣之步驟,隨後進行用惰性氣體吹掃槽之步驟,但其不限於此。For example, a step of vacuum degassing may be performed, followed by a step of purging the tank with an inert gas, but it is not limited thereto.

真空脫氣之步驟及/或用惰性氣體吹掃槽之步驟可改良由此產生之基底薄膜表面之物理特性。The steps of vacuum degassing and/or purging the tank with an inert gas can improve the physical properties of the resulting base film surface.

其後,製程可進一步包含在槽(20)中儲存聚合物溶液1小時至360小時。此處,槽內部溫度可為保持在-20℃至20℃下。Thereafter, the process may further include storing the polymer solution in the tank (20) for 1 hour to 360 hours. Here, the temperature inside the tank may be maintained at -20°C to 20°C.

製備基底薄膜之製程可進一步包含將聚合物溶液澆鑄於槽中且隨後將其乾燥以製備凝膠薄片(S400)。The process of preparing the base film may further include casting the polymer solution in a tank and then drying it to prepare a gel sheet (S400).

聚合物溶液可澆鑄於諸如澆鑄輥或澆鑄帶之澆鑄體上。The polymer solution can be cast onto a casting body such as a casting roll or a casting belt.

參見圖3,根據實施例,聚合物溶液可施加於作為澆鑄體之澆鑄帶(30)上,且其在移動時經乾燥以製成呈凝膠形式之薄片。Referring to Figure 3, according to an embodiment, a polymer solution may be applied to a casting belt (30) as a casting body and dried as it moves to produce a sheet in the form of a gel.

當將聚合物溶液注入於帶(30)上時,注入速率可為300 g/min至700 g/min。若聚合物溶液之注入速率滿足上述範圍,則凝膠薄片可均勻地形成為適當厚度。When the polymer solution is injected onto the belt (30), the injection rate may be 300 g/min to 700 g/min. If the injection rate of the polymer solution satisfies the above range, the gel sheet can be uniformly formed to an appropriate thickness.

另外,聚合物溶液之澆鑄厚度可為200 µm至700 µm。若將聚合物溶液澆鑄為以上範圍內的厚度,則在乾燥及熱處理之後產生的最終薄膜可具有適當且均勻的厚度。In addition, the casting thickness of the polymer solution can be from 200 µm to 700 µm. If the polymer solution is cast to a thickness within the above range, the final film produced after drying and heat treatment can have an appropriate and uniform thickness.

如上文所描述,在室溫下聚合物溶液之黏度可為100,000 cps至500,000 cps,例如100,000 cps至400,000 cps、100,000 cps至350,000 cps、150,000 cps至350,000 cps或150,000 cps至250,000 cps。若黏度滿足上述範圍,則聚合物溶液可以均勻厚度澆鑄於帶上而無缺陷。As described above, the viscosity of the polymer solution at room temperature may range from 100,000 cps to 500,000 cps, such as 100,000 cps to 400,000 cps, 100,000 cps to 350,000 cps, 150,000 cps to 350,000 cps, or 150,000 cps to 250,000 cps. If the viscosity meets the above range, the polymer solution can be cast on the tape at a uniform thickness without defects.

將聚合物溶液澆鑄且隨後在60℃至150℃之溫度下乾燥5分鐘至60分鐘以製備凝膠薄片。聚合物溶液之溶劑在乾燥期間部分或全部揮發以製備凝膠薄片。The polymer solution is cast and subsequently dried at a temperature of 60°C to 150°C for 5 minutes to 60 minutes to prepare gel sheets. The solvent of the polymer solution is partially or completely evaporated during drying to prepare gel sheets.

在乾燥時澆鑄體上之凝膠薄片之移動速度可為0.1 m/min至15 m/min,例如0.5 m/min至10 m/min,但其不限於此。The moving speed of the gel flakes on the casting during drying may be 0.1 m/min to 15 m/min, such as 0.5 m/min to 10 m/min, but is not limited thereto.

製備基底薄膜之製程包含在凝膠薄片移動時熱處理凝膠薄片以製備固化薄膜(S500)。The process of preparing the base film includes heat-treating the gel sheet while the gel sheet is moving to prepare a cured film (S500).

參見圖3,凝膠薄片之熱處理可藉由使其穿過熱固裝置(40)來進行。Referring to Figure 3, heat treatment of the gel sheet may be performed by passing it through a thermoset device (40).

當凝膠薄片穿過熱固裝置(40)時,其用熱空氣處理。As the gel sheet passes through the thermosetting device (40), it is treated with hot air.

若熱處理用熱空氣進行,則可均勻供應熱。若不均勻地供應熱,則無法達成令人滿意的表面粗糙度,其可能過多地升高或降低表面張力。If the heat treatment is performed with hot air, heat can be supplied uniformly. If heat is supplied unevenly, satisfactory surface roughness cannot be achieved and it may raise or lower surface tension too much.

凝膠薄片之熱處理在60℃至500℃之溫度範圍內進行5分鐘至200分鐘。特定言之,凝膠薄片之熱處理可以1.5℃/min至80℃/min之溫度升高速率在75℃至460℃之溫度範圍內進行10分鐘至150分鐘。The heat treatment of the gel sheet is carried out at a temperature ranging from 60°C to 500°C for 5 minutes to 200 minutes. Specifically, the heat treatment of the gel sheet can be carried out at a temperature increase rate of 1.5°C/min to 80°C/min in a temperature range of 75°C to 460°C for 10 minutes to 150 minutes.

在此類情況下,凝膠薄片之熱處理的初始溫度可為60℃或更高。特定言之,其可為60℃至200℃,更特定言之80℃至180℃。In such cases, the initial temperature of the heat treatment of the gel sheet may be 60°C or higher. Specifically, it may be 60°C to 200°C, more specifically 80°C to 180°C.

另外,熱處理中之最高溫度可為300℃至500℃。舉例而言,熱處理中之最高溫度可為350℃至500℃、380℃至500℃、400℃至500℃、410℃至480℃、410℃至470℃或410℃至450℃。In addition, the maximum temperature during heat treatment may be 300°C to 500°C. For example, the maximum temperature in the heat treatment may be 350°C to 500°C, 380°C to 500°C, 400°C to 500°C, 410°C to 480°C, 410°C to 470°C, or 410°C to 450°C.

亦即,參見圖2,熱固裝置(40)的入口溫度可為熱處理的初始溫度,且熱固裝置(40)內部的某區域的溫度可為熱處理中的最高溫度。That is, referring to Figure 2, the inlet temperature of the thermosetting device (40) may be the initial temperature of the heat treatment, and the temperature of a certain area inside the thermosetting device (40) may be the highest temperature in the heat treatment.

根據實施例,凝膠薄片之熱處理可以二個或更多個步驟進行。According to embodiments, the heat treatment of the gel sheet may be performed in two or more steps.

特定言之,熱處理包含在60℃至120℃範圍內進行5分鐘至30分鐘之第一熱空氣處理步驟;及在120℃至350℃範圍內進行10分鐘至120分鐘之第二熱空氣處理步驟。Specifically, the heat treatment includes a first hot air treatment step in the range of 60°C to 120°C for 5 minutes to 30 minutes; and a second hot air treatment step in the range of 120°C to 350°C for 10 minutes to 120 minutes. .

在此等條件下熱處理可固化凝膠薄片以具有適當的表面硬度及模數,且可同時確保固化薄膜之高透光率、低混濁度及適當的光澤度位準。Heat treatment under these conditions can cure the gel sheet to have appropriate surface hardness and modulus, and can simultaneously ensure high transmittance, low haze and appropriate gloss level of the cured film.

根據另一實施例,熱處理可包含使其穿過IR加熱器。藉由IR加熱器進行之熱處理可在300℃或更高之溫度範圍中進行1分鐘至30分鐘。特定言之,藉由IR加熱器進行之熱處理可在300℃至500℃之溫度範圍中進行1分鐘至20分鐘。According to another embodiment, the thermal treatment may include passing through an IR heater. The heat treatment by an IR heater can be carried out in a temperature range of 300°C or higher for 1 minute to 30 minutes. Specifically, the heat treatment by the IR heater may be performed in a temperature range of 300°C to 500°C for 1 minute to 20 minutes.

製備基底薄膜之製程包含在固化薄膜移動時冷卻固化薄膜(S600)。The process of preparing the base film includes cooling the solidified film while the solidified film is moving (S600).

參見圖3,固化薄膜之冷卻在其已穿過熱固裝置(40)之後進行。其可藉由使用個別冷卻腔室(未圖示)或在無個別冷卻腔室之情況下藉由形成適當溫度氛圍來進行。Referring to Figure 3, cooling of the solidified film occurs after it has passed through the thermosetting device (40). This can be done by using a separate cooling chamber (not shown) or by creating an atmosphere of appropriate temperature in the absence of a separate cooling chamber.

在固化薄膜移動時冷卻固化薄膜的步驟可包含以100℃/min至1,000℃/min的速率將溫度降低的第一溫度降低步驟及以40℃/min至400℃/min的速率將溫度降低的第二溫度降低步驟。The step of cooling the solidified film while the solidified film is moving may include a first temperature lowering step of lowering the temperature at a rate of 100°C/min to 1,000°C/min and a first temperature lowering step of lowering the temperature at a rate of 40°C/min to 400°C/min. Second temperature lowering step.

在此類情況下,特定言之,在第一溫度降低步驟之後進行第二溫度降低步驟。第一溫度降低步驟的溫度降低速率可比第二溫度降低步驟的溫度降低速率快。In such a case, in particular, the second temperature lowering step is performed after the first temperature lowering step. The temperature reduction rate of the first temperature reduction step may be faster than the temperature reduction rate of the second temperature reduction step.

舉例而言,第一溫度降低步驟的最大速率比第二溫度降低步驟的最大速率快。或者,第一溫度降低步驟的最低速率比第二溫度降低步驟的最低速率快。For example, the maximum rate of the first temperature reduction step is faster than the maximum rate of the second temperature reduction step. Alternatively, the minimum rate of the first temperature reduction step is faster than the minimum rate of the second temperature reduction step.

若以此類多階段方式進行固化薄膜冷卻之步驟,則有可能使固化薄膜之物理特性進一步穩定化且更穩定地維持固化步驟期間所獲得之薄膜的光學特性及機械特性持續較長時段。If the step of cooling the solidified film is performed in such a multi-stage manner, it is possible to further stabilize the physical properties of the solidified film and to more stably maintain the optical and mechanical properties of the film obtained during the solidifying step for a longer period of time.

凝膠薄片之移動速度與固化薄膜之移動速度相同。The gel flakes move at the same speed as the cured film.

製備基底薄膜之製程包含使用捲繞器捲繞經冷卻之固化薄膜(S700)。The process of preparing the base film includes winding the cooled solidified film using a winder (S700).

參見圖3,經冷卻之固化薄膜可使用輥形捲繞器(50)捲繞。Referring to Figure 3, the cooled solidified film can be wound using a roll winder (50).

在此類情況下,在乾燥時帶上之凝膠薄片之移動速度與捲繞時固化薄膜之移動速度之比率為1:0.95至1:1.40。特定言之,移動速度的比率可為1:0.99至1:1.20、1:0.99至1:1.10、或1:1.0至1:1.05,但其不限於此。In such cases, the ratio of the moving speed of the gel sheet on the belt during drying to the moving speed of the cured film during winding is 1:0.95 to 1:1.40. Specifically, the ratio of the moving speed may be 1:0.99 to 1:1.20, 1:0.99 to 1:1.10, or 1:1.0 to 1:1.05, but it is not limited thereto.

若移動速度之比率在上述範圍外,則固化薄膜之機械特性可能受損,且可撓性及彈性特性可能劣化。If the ratio of the moving speed is outside the above range, the mechanical properties of the cured film may be damaged, and the flexibility and elastic properties may be deteriorated.

在製備基底薄膜之製程中,根據以下關係式1的厚度變化(%)可為3%至30%。特定言之,厚度變化(%)可為5%至20%,但其不限於此。 [關係式1] 厚度變化(%) = (M1 - M2)/M2 × 100 In the process of preparing the base film, the thickness change (%) according to the following relationship equation 1 can be 3% to 30%. Specifically, the thickness change (%) may be 5% to 20%, but it is not limited thereto. [Relationship 1] Thickness change (%) = (M1 - M2)/M2 × 100

在關係式1中,M1為凝膠薄片之厚度(µm),且M2為捲繞時經冷卻之固化薄膜的厚度(µm)。In relational expression 1, M1 is the thickness of the gel sheet (µm), and M2 is the thickness of the solidified film cooled during winding (µm).

藉由如上文所描述之製備製程製備之基底薄膜在光學特性及機械特性方面為極佳的。基底薄膜可適用於需要可撓性、透明度及一定光澤度位準的各種用途。舉例而言,基底薄膜可應用於太陽能電池、顯示器、半導體裝置、感測器以及其類似物。The base film prepared by the preparation process as described above has excellent optical properties and mechanical properties. Base films can be used in a variety of applications that require flexibility, transparency and a certain level of gloss. For example, base films may be used in solar cells, displays, semiconductor devices, sensors, and the like.

特定言之,因為基底薄膜可達成一定光澤度位準,其可有利地應用於顯示裝置之覆蓋窗及顯示裝置。由於其具有極佳摺疊特徵,因此其可有利地應用於可摺疊顯示裝置或可撓式顯示裝置。Specifically, because the base film can achieve a certain gloss level, it can be advantageously applied to the cover window and display device of the display device. Since it has excellent folding characteristics, it can be advantageously applied to foldable display devices or flexible display devices.

藉由以上製備製程製備之聚醯胺系基底薄膜的細節如上文所描述。 功能層 (200) The details of the polyamide base film prepared by the above preparation process are as described above. Functional layer (200)

功能層(200)可包含有機樹脂。The functional layer (200) may include organic resin.

此外,功能層(200)可進一步包含填充劑。In addition, the functional layer (200) may further include fillers.

功能層(200)可進一步包含其他添加劑。The functional layer (200) may further contain other additives.

有機樹脂可為可固化樹脂。有機樹脂可為黏合劑樹脂。有機樹脂可為選自由以下組成之群的至少一者:丙烯酸酯系單體、胺基甲酸酯丙烯酸酯系寡聚物及環氧丙烯酸酯系寡聚物。The organic resin may be a curable resin. The organic resin may be a binder resin. The organic resin may be at least one selected from the group consisting of an acrylate monomer, a urethane acrylate oligomer, and an epoxy acrylate oligomer.

丙烯酸酯系單體可為選自由以下組成之群的至少一者:經取代或未經取代之丙烯酸酯及經取代或未經取代之甲基丙烯酸酯。The acrylate monomer may be at least one selected from the group consisting of substituted or unsubstituted acrylate and substituted or unsubstituted methacrylate.

丙烯酸酯系單體可含有1至10個官能基。胺基甲酸酯丙烯酸酯系寡聚物可含有2至15個官能基。環氧丙烯酸酯系寡聚物可含有1至10個官能基。Acrylate monomers may contain 1 to 10 functional groups. Urethane acrylate oligomers may contain from 2 to 15 functional groups. Epoxy acrylate oligomers may contain 1 to 10 functional groups.

丙烯酸酯系單體之實例包括三羥甲基丙烷三丙烯酸酯(TMPTA)、乙氧基化三羥甲基丙烷三丙烯酸酯(trimethylolpropaneethoxy triacrylate,TMPEOTA)、丙氧基化丙三醇三丙烯酸酯(GPTA)、新戊四醇四丙烯酸酯(PETA)以及二新戊四醇六丙烯酸酯(DPHA)。Examples of acrylate monomers include trimethylolpropane triacrylate (TMPTA), ethoxylated trimethylolpropaneethoxy triacrylate (TMPEOTA), propoxylated glycerol triacrylate (TMPEOTA) GPTA), pentaerythritol tetraacrylate (PETA), and dipenterythritol hexaacrylate (DPHA).

丙烯酸酯系單體之重均分子量(Mw)可為約200至約2,000公克/莫耳、約200至約1,000公克/莫耳或約200至約500公克/莫耳。The weight average molecular weight (Mw) of the acrylate monomer may be about 200 to about 2,000 grams/mol, about 200 to about 1,000 grams/mol, or about 200 to about 500 grams/mol.

丙烯酸酯系單體的丙烯酸酯當量可在約50至約300公克/當量、約50至約200公克/當量或約50至約150公克/當量範圍內。The acrylate equivalent weight of the acrylate-based monomer may be in the range of about 50 to about 300 grams/equivalent, about 50 to about 200 grams/equivalent, or about 50 to about 150 grams/equivalent.

胺基甲酸酯丙烯酸酯系寡聚物之實例包括重均分子量1,400至25,000的雙官能胺基甲酸酯丙烯酸酯寡聚物、重均分子量1,700至16,000的三官能胺基甲酸酯丙烯酸酯寡聚物、重均分子量500至2,000的四官能胺基甲酸酯丙烯酸酯寡聚物、重均分子量818至2,600的六官能胺基甲酸酯丙烯酸酯寡聚物、重均分子量3,500至5,500的九官能胺基甲酸酯丙烯酸酯寡聚物、重均分子量3,200至3,900的十官能胺基甲酸酯丙烯酸酯寡聚物及重均分子量2,300至20,000的十五官能胺基甲酸酯丙烯酸酯寡聚物。Examples of urethane acrylate oligomers include bifunctional urethane acrylate oligomers with a weight average molecular weight of 1,400 to 25,000, and trifunctional urethane acrylates with a weight average molecular weight of 1,700 to 16,000 Oligomer, tetrafunctional urethane acrylate oligomer with weight average molecular weight of 500 to 2,000, hexafunctional urethane acrylate oligomer with weight average molecular weight of 818 to 2,600, weight average molecular weight of 3,500 to 5,500 of nonafunctional urethane acrylate oligomers, decafunctional urethane acrylate oligomers with a weight average molecular weight of 3,200 to 3,900, and pentafunctional urethane acrylates with a weight average molecular weight of 2,300 to 20,000 Ester oligomers.

環氧丙烯酸酯系寡聚物之實例包括重均分子量100至300的單官能環氧丙烯酸酯寡聚物、重均分子量250至2,000的雙官能環氧丙烯酸酯寡聚物及重均分子量1,000至3,000的四官能環氧丙烯酸酯寡聚物。Examples of epoxy acrylate oligomers include monofunctional epoxy acrylate oligomers with a weight average molecular weight of 100 to 300, bifunctional epoxy acrylate oligomers with a weight average molecular weight of 250 to 2,000, and monofunctional epoxy acrylate oligomers with a weight average molecular weight of 1,000 to 2,000. 3,000 tetrafunctional epoxy acrylate oligomer.

環氧丙烯酸酯系寡聚物之環氧當量可在約50至約300公克/當量、約50至約200公克/當量或約50至約150公克/當量範圍內。The epoxy equivalent weight of the epoxy acrylate oligomer may be in the range of about 50 to about 300 grams/equivalent, about 50 to about 200 grams/equivalent, or about 50 to about 150 grams/equivalent.

按功能層的總重量計,有機樹脂的含量可為30重量%至100重量%。特定言之,按功能層的總重量計,有機樹脂的含量可為40重量%至90重量%、50重量%至90重量%或50重量%至80重量%。The content of the organic resin may be 30% to 100% by weight based on the total weight of the functional layer. Specifically, based on the total weight of the functional layer, the content of the organic resin may be 40% to 90% by weight, 50% to 90% by weight, or 50% to 80% by weight.

填充劑之實例包括二氧化矽、硫酸鋇、氧化鋅及氧化鋁。Examples of fillers include silica, barium sulfate, zinc oxide and aluminum oxide.

以功能層之總重量計,填充劑之含量可為50,000 ppm至400,000 ppm。特定言之,以功能層之總重量計,填充劑之含量可為50,000至350,000 ppm、50,000至320,000 ppm、70,000至350,000 ppm、50,000至300,000 ppm或50,000至250,000 ppm,但其不限於此。The content of filler may range from 50,000 ppm to 400,000 ppm based on the total weight of the functional layer. Specifically, based on the total weight of the functional layer, the content of the filler may be 50,000 to 350,000 ppm, 50,000 to 320,000 ppm, 70,000 to 350,000 ppm, 50,000 to 300,000 ppm or 50,000 to 250,000 ppm, but it is not limited thereto.

填充劑的粒徑可為5 nm至100 nm。特定言之,填充劑的粒徑可為5 nm至80 nm、5 nm至60 nm、5 nm至50 nm、5 nm至30 nm、5 nm至20 nm或10 nm至15 nm。The filler particle size can range from 5 nm to 100 nm. Specifically, the particle size of the filler may be 5 nm to 80 nm, 5 nm to 60 nm, 5 nm to 50 nm, 5 nm to 30 nm, 5 nm to 20 nm, or 10 nm to 15 nm.

填充劑可經歷表面處理。填充劑可以用矽烷偶合劑或其類似物進行表面處理。矽烷偶合劑之實例包括(甲基)丙烯醯矽烷、甲基丙烯醯氧基矽烷(methacroxysilane)、乙烯基矽烷、環氧矽烷及巰基矽烷。Fillers can undergo surface treatments. The filler may be surface-treated with a silane coupling agent or the like. Examples of silane coupling agents include (meth)acrylsilane, methacroxysilane, vinylsilane, epoxysilane, and mercaptosilane.

特定言之,填充劑可為二氧化矽系材料,且其粒徑可為5 nm至100 nm,例如10 nm至15 nm,但其不限於此。Specifically, the filler can be a silica-based material, and its particle size can be 5 nm to 100 nm, such as 10 nm to 15 nm, but it is not limited thereto.

當功能層包含填充劑時,有可能不僅增強聚醯胺系複合薄膜之表面硬度,且亦影響表面粗糙度及光路,藉此達成適當光澤度。When the functional layer contains fillers, it is possible to not only enhance the surface hardness of the polyamide-based composite film, but also affect the surface roughness and optical path, thereby achieving appropriate gloss.

在一實施例中,在聚醯胺系複合薄膜中,基底薄膜可進一步包含消光劑,且功能層可進一步包含填充劑。In one embodiment, in the polyamide-based composite film, the base film may further include a matting agent, and the functional layer may further include a filler.

特定言之,消光劑及填充劑可相同或不同。Specifically, the matting agent and the filler may be the same or different.

更特定言之,消光劑及填充劑可均為二氧化矽,但其就粒子之粒度、分佈、含量及其類似者而言可不同。舉例而言,消光劑的粒徑可為100 nm至150 nm,且填充劑的粒徑可為10 nm至15 nm,但其不限於此。More specifically, the matting agent and the filler may both be silica, but may differ with respect to particle size, distribution, content, and the like. For example, the particle size of the matting agent may be 100 nm to 150 nm, and the particle size of the filler may be 10 nm to 15 nm, but it is not limited thereto.

功能層可進一步包含光引發劑。The functional layer may further include a photoinitiator.

光引發劑之實例包括1-羥基-環己基-苯基酮、2-羥基-2-甲基-1-苯基-1-丙酮、2-羥基-1-[4-(2-羥基乙氧基)苯基]-2-甲基-1-丙酮、甲酸甲基苯甲醯酯、α,α-二甲氧基-α-苯基苯乙酮、2-苯甲醯基-2-(二甲基胺基)-1-[4-(4-嗎啉基)苯基]-1-丁酮、2-甲基-1-[4-(甲硫基)苯基]-2-(4-嗎啉基)-1-丙酮、氧化二苯基(2,4,6-三甲基苯甲醯基)-膦及氧化雙(2,4,6-三甲基苯甲醯基)-苯基膦,但其不限於此。此外,市售產品包括Irgacure 184、Irgacure 500、Irgacure 651、Irgacure 369、Irgacure 907、Darocur 1173、Darocur MBF、Irgacure 819、Darocur TPO、Irgacure 907及Esacure KIP 100F。光引發劑可單獨使用或以二個或更多個不同類型之組合形式使用。Examples of photoinitiators include 1-hydroxy-cyclohexyl-phenyl ketone, 2-hydroxy-2-methyl-1-phenyl-1-propanone, 2-hydroxy-1-[4-(2-hydroxyethoxy base)phenyl]-2-methyl-1-propanone, methylbenzoyl formate, α,α-dimethoxy-α-phenylacetophenone, 2-benzoyl-2-( Dimethylamino)-1-[4-(4-morpholinyl)phenyl]-1-butanone, 2-methyl-1-[4-(methylthio)phenyl]-2-( 4-morpholinyl)-1-propanone, diphenyl(2,4,6-trimethylbenzoyl)-phosphine oxide and bis(2,4,6-trimethylbenzoyl) oxide - phenylphosphine, but it is not limited thereto. In addition, commercially available products include Irgacure 184, Irgacure 500, Irgacure 651, Irgacure 369, Irgacure 907, Darocur 1173, Darocur MBF, Irgacure 819, Darocur TPO, Irgacure 907 and Esacure KIP 100F. Photoinitiators can be used alone or in combination of two or more different types.

功能層可包含界面活性劑、UV吸收劑、UV穩定劑、抗黃化劑、調平劑、防污劑或用於改良色度值的染料作為其他添加劑。另外,添加劑之含量可在不削弱功能層之物理特性之範圍內不同地調節。舉例而言,按功能層之總重量計,添加劑之含量可為約0.01重量%至約10重量%,但其不限於此。The functional layer can contain surfactants, UV absorbers, UV stabilizers, anti-yellowing agents, leveling agents, antifouling agents or dyes for improving the colorimetric values as further additives. In addition, the content of the additives can be adjusted differently within the range of not weakening the physical properties of the functional layer. For example, the content of the additive may be about 0.01% by weight to about 10% by weight based on the total weight of the functional layer, but is not limited thereto.

界面活性劑可為單官能至雙官能氟系丙烯酸酯、氟系界面活性劑或矽酮系界面活性劑。界面活性劑可以分散或交聯於功能層中之形式採用。The surfactant may be a monofunctional to difunctional fluorine-based acrylate, a fluorine-based surfactant or a silicone-based surfactant. The surfactant can be used in the form of being dispersed or cross-linked in the functional layer.

UV吸收劑之實例包括二苯甲酮系化合物、苯并三唑系化合物及三𠯤系化合物。UV穩定劑之實例包括四甲基哌啶及其類似物。Examples of UV absorbers include benzophenone-based compounds, benzotriazole-based compounds, and tristriazole-based compounds. Examples of UV stabilizers include tetramethylpiperidine and the like.

可製備塗佈組合物以便形成功能層。塗佈組合物包含有機樹脂、填充劑、添加劑及有機溶劑。The coating composition can be prepared so as to form a functional layer. The coating composition includes organic resin, fillers, additives and organic solvents.

有機溶劑之實例包括醇系溶劑,諸如甲醇、乙醇、異丙醇及丁醇;烷氧醇系溶劑,諸如2-甲氧基乙醇、2-乙氧基乙醇及1-甲氧基-2-丙醇;酮系溶劑,諸如丙酮、甲基乙基酮、甲基異丁基酮、甲基丙基酮及環己酮;醚系溶劑,諸如丙二醇單丙醚、丙二醇單甲醚、乙二醇單乙醚、乙二醇單丙醚、乙二醇單丁醚、二乙二醇單甲醚、二乙二醇單乙醚、二乙二醇單丙醚、二乙二醇單丁醚及二乙二醇-2-乙基己醚;及芳族溶劑,諸如苯、甲苯及二甲苯,其可單獨或以其組合形式使用。Examples of organic solvents include alcohol-based solvents, such as methanol, ethanol, isopropyl alcohol, and butanol; alkoxyalcohol-based solvents, such as 2-methoxyethanol, 2-ethoxyethanol, and 1-methoxy-2- Propanol; ketone solvents, such as acetone, methyl ethyl ketone, methyl isobutyl ketone, methyl propyl ketone and cyclohexanone; ether solvents, such as propylene glycol monopropyl ether, propylene glycol monomethyl ether, ethylene glycol Alcohol monoethyl ether, ethylene glycol monopropyl ether, ethylene glycol monobutyl ether, diethylene glycol monomethyl ether, diethylene glycol monoethyl ether, diethylene glycol monopropyl ether, diethylene glycol monobutyl ether and diethylene glycol monobutyl ether. Ethylene glycol-2-ethylhexyl ether; and aromatic solvents such as benzene, toluene and xylene, which may be used alone or in combination thereof.

有機溶劑之含量不受特定限制,因為其可在不削弱塗佈組合物之物理特性之範圍內不同地調節。可採用有機溶劑使得塗佈組合物中所含有之組分之固體含量與有機溶劑之重量比可為約30:70至約99:1。若有機溶劑之含量在上述範圍內,則組合物可具有適當可流動性及可塗佈性。The content of the organic solvent is not particularly limited since it can be variously adjusted within the range of not impairing the physical properties of the coating composition. The organic solvent may be used such that the weight ratio of the solid content of the components contained in the coating composition to the organic solvent may be from about 30:70 to about 99:1. If the content of the organic solvent is within the above range, the composition can have appropriate flowability and coatability.

因為在製備功能層之過程中使用有機溶劑,所以痕量有機溶劑可保留於功能層中。Because organic solvents are used in the process of preparing the functional layer, trace amounts of organic solvent may remain in the functional layer.

特定言之,塗佈組合物可包含有機樹脂及填充劑。Specifically, the coating composition may include organic resin and filler.

填充劑可以分散於溶劑中之溶膠形式採用。舉例而言,填充劑為二氧化矽,且二氧化矽可以二氧化矽溶膠形式採用。The filler can be used in the form of a sol dispersed in a solvent. For example, the filler is silica, and the silica can be used in the form of silica sol.

塗佈組合物可包含溶膠,其中有機樹脂及填充劑以80:20至40:60之重量比分散。The coating composition may include a sol in which the organic resin and the filler are dispersed in a weight ratio of 80:20 to 40:60.

特定言之,塗佈組合物可包含溶膠,其中有機樹脂及填充劑以80:20至50:50之重量比分散,但其不限於此。Specifically, the coating composition may include a sol in which the organic resin and the filler are dispersed in a weight ratio of 80:20 to 50:50, but it is not limited thereto.

可將塗佈組合物塗覆於基底薄膜之前側或背側。塗佈組合物可藉由棒塗法、刮刀塗法、滾塗法、刮塗法、模塗法、微凹板印刷式塗法、逗號刮刀塗法、槽模塗法、唇形塗法或溶液澆鑄法塗佈。The coating composition can be applied to the front side or back side of the base film. The coating composition can be applied by a bar coating method, a doctor blade coating method, a roller coating method, a blade coating method, a die coating method, a microgravure printing coating method, a comma blade coating method, a slot die coating method, a lip coating method, or Solution casting coating.

其後,可移除塗佈組合物中所含有之有機溶劑。有機溶劑可藉由蒸發移除。Thereafter, the organic solvent contained in the coating composition can be removed. Organic solvents can be removed by evaporation.

此後,可藉由光及/或熱固化塗佈組合物層。Thereafter, the coating composition layer can be cured by light and/or heat.

功能層在其完全固化時可具有約2 μm或更大或約3 μm或更大,例如約2至約20 μm、約2至約15 μm、約2至約10 μm或約3至約10 μm之厚度。The functional layer may have a thickness of about 2 μm or greater or about 3 μm or greater when fully cured, such as about 2 to about 20 μm, about 2 to about 15 μm, about 2 to about 10 μm, or about 3 to about 10 μm. Thickness in μm.

額外層可進一步插入於基底薄膜與功能層之間。額外層可為抗靜電層,其執行抗靜電功能,或可為低折射率層,其執行低反射功能。或者,功能層自身可執行抗靜電功能及/或低反射功能。Additional layers can be further interposed between the base film and the functional layer. The additional layer may be an antistatic layer, which performs an antistatic function, or may be a low refractive index layer, which performs a low-reflective function. Alternatively, the functional layer itself may perform antistatic and/or low-reflective functions.

另外,功能層具有1.45至1.60的折射率。特定言之,功能層之折射率可為1.46至1.58、1.46至1.55、1.46至1.52、1.48至1.51或1.49至1.51,但其不限於此。In addition, the functional layer has a refractive index of 1.45 to 1.60. Specifically, the refractive index of the functional layer may be 1.46 to 1.58, 1.46 to 1.55, 1.46 to 1.52, 1.48 to 1.51, or 1.49 to 1.51, but it is not limited thereto.

功能層折射率滿足以上範圍時,可獲得適當薄膜光澤度位準。 顯示裝置 When the refractive index of the functional layer meets the above range, an appropriate film gloss level can be obtained. display device

根據實施例之顯示裝置包含顯示單元;及安置於顯示單元上之聚醯胺系複合薄膜,其中聚醯胺系複合薄膜包含基底薄膜及安置於基底薄膜上之功能層。The display device according to the embodiment includes a display unit; and a polyamide composite film disposed on the display unit, wherein the polyamide composite film includes a base film and a functional layer disposed on the base film.

聚醯胺系複合薄膜具有0或更大的根據以上方程式1之光澤度控制值。The polyamide-based composite film has a gloss control value of 0 or greater according to Equation 1 above.

此處,基底薄膜、功能層、聚醯胺系複合薄膜及其類似物的細節如上文所描述。Here, the details of the base film, functional layer, polyamide-based composite film and the like are as described above.

特定言之,圖1說明顯示裝置,其包含顯示單元(400)及安置於顯示單元(400)上之聚醯胺系複合薄膜(300),其中聚醯胺系複合薄膜包含具有第一側(101)及第二側(102)之基底薄膜(100)及功能層(200),且黏接層(500)插入於顯示單元(400)及聚醯胺系複合薄膜(300)之間。Specifically, Figure 1 illustrates a display device, which includes a display unit (400) and a polyamide composite film (300) disposed on the display unit (400), wherein the polyamide composite film includes a first side ( 101) and the base film (100) and the functional layer (200) on the second side (102), and the adhesive layer (500) is inserted between the display unit (400) and the polyamide composite film (300).

顯示單元(400)用於顯示影像,且其可具有可撓性特徵。The display unit (400) is used to display images, and it may have flexible characteristics.

顯示單元(400)可為用於顯示影像的顯示面板。舉例而言,其可為液晶顯示面板或有機電致發光顯示面板。有機電致發光顯示面板可包含前偏光板及有機EL面板。The display unit (400) may be a display panel for displaying images. For example, it may be a liquid crystal display panel or an organic electroluminescent display panel. The organic electroluminescent display panel may include a front polarizing plate and an organic EL panel.

前偏光板可安置於有機EL面板的前側上。特定言之,前偏光板可附接於有機EL面板中其上顯示影像之側。The front polarizing plate can be disposed on the front side of the organic EL panel. Specifically, the front polarizing plate may be attached to the side of the organic EL panel on which the image is displayed.

有機EL面板藉由像素單元自發射顯示影像。有機EL面板可包含有機EL基板及驅動基板。有機EL基板可包含多個有機電致發光單元,其中每一者對應於一像素。特定言之,其可包含陰極、電子傳遞層、發光層、電洞傳輸層及陽極。驅動基板以可操作方式耦接於有機EL基板。亦即,驅動基板可耦接於有機EL基板以施加驅動信號,諸如驅動電流,以使得驅動基板可藉由施加電流至各別有機電致發光單元來驅動有機EL基板。Organic EL panels display images through self-emission of pixel units. The organic EL panel may include an organic EL substrate and a driving substrate. The organic EL substrate may include a plurality of organic electroluminescent units, each of which corresponds to a pixel. Specifically, it may include a cathode, an electron transport layer, a light emitting layer, a hole transport layer and an anode. The driving substrate is operatively coupled to the organic EL substrate. That is, the driving substrate can be coupled to the organic EL substrate to apply a driving signal, such as a driving current, so that the driving substrate can drive the organic EL substrate by applying current to the respective organic electroluminescent units.

此外,黏接層(500)可插入於顯示單元(400)及聚醯胺系複合薄膜(300)之間。黏接層可為光學透明黏接層,但其不受特定限制。In addition, the adhesive layer (500) can be inserted between the display unit (400) and the polyamide composite film (300). The adhesive layer may be an optically transparent adhesive layer, but is not particularly limited.

聚醯胺系複合薄膜(300)安置於顯示單元(400)上。聚醯胺系複合薄膜位於根據實施例之顯示裝置的最外位置,從而保護顯示單元。The polyamide composite film (300) is placed on the display unit (400). The polyamide composite film is located at the outermost position of the display device according to the embodiment, thereby protecting the display unit.

聚醯胺系複合薄膜(300)可包含基底薄膜及功能層。功能層可為選自由以下組成之群的至少一者:硬塗層、反射率減小層、抗污層及防眩光層。功能層可塗佈於基底薄膜的至少一側上。The polyamide composite film (300) may include a base film and a functional layer. The functional layer may be at least one selected from the group consisting of: a hard coating layer, a reflectivity reducing layer, an antifouling layer and an anti-glare layer. The functional layer can be coated on at least one side of the base film.

根據實施例之聚醯胺系複合薄膜可以薄膜形式施加於顯示裝置外部,而不改變顯示驅動方法、面板內部之濾色器或層壓結構,由此提供具有廣視角及極佳可見度的顯示裝置。由於既不需要顯著製程變化亦不需要增加成本,所以其在可減小生產成本上為有利的。The polyamide-based composite film according to the embodiment can be applied to the outside of the display device in the form of a film without changing the display driving method, the color filter or the laminate structure inside the panel, thereby providing a display device with a wide viewing angle and excellent visibility. . This is advantageous in that it can reduce production costs since neither significant process changes nor additional costs are required.

根據實施例之聚醯胺系複合薄膜(300)不僅在高透射率、低混濁度及低黃色指數方面具有極佳光學特徵,而且在極佳捲曲特徵、高表面硬度及低表面粗糙度方面具有極佳機械特徵。The polyamide-based composite film (300) according to the embodiment not only has excellent optical characteristics in terms of high transmittance, low turbidity and low yellow index, but also has excellent curl characteristics, high surface hardness and low surface roughness. Excellent mechanical characteristics.

特定言之,根據實施例之聚醯胺系複合薄膜(300)在廣視角(例如85°)下產生隱私保護效果,因為其展現習知聚醯胺系薄膜之光澤度位準,同時其在主視角(例如20°)下展現類似於玻璃之光澤度之光澤度位準,由此有可能實現極佳可見度及類似於玻璃之美觀性感覺。因此,其適用作玻璃之替代薄膜。Specifically, the polyamide-based composite film (300) according to the embodiment produces a privacy protection effect under a wide viewing angle (for example, 85°) because it exhibits the gloss level of a conventional polyamide-based film, and at the same time, it has a privacy protection effect under a wide viewing angle (for example, 85°). It exhibits a gloss level similar to that of glass at (for example, 20°), thereby making it possible to achieve excellent visibility and an aesthetic feel similar to glass. Therefore, it is suitable as a replacement film for glass.

因此,由於相較於玻璃其輕量化且可撓性極佳,且同時滿足高表面硬度特徵,因此其可有利地應用於可摺疊顯示裝置或可撓性顯示裝置。 用於實施本發明之實施例 Therefore, since it is lightweight and highly flexible compared to glass, and also meets the characteristics of high surface hardness, it can be advantageously applied to foldable display devices or flexible display devices. Examples for carrying out the invention

在下文中,將藉由參考實例詳細描述本發明。但以下實例意欲說明本發明,且本發明之範疇並不僅限於此。 [實例] 實例 1 Hereinafter, the present invention will be described in detail by referring to examples. However, the following examples are intended to illustrate the present invention, and the scope of the present invention is not limited thereto. [Example] Example 1

在20℃下在氮氣氛圍下,向配備有溫度可控雙重夾套之1公升玻璃反應器中饋入779.1 g作為有機溶劑之二甲基乙醯胺(DMAc)。隨後,向其中緩慢添加0.2莫耳2,2'-雙(三氟甲基)-4,4'-二胺基聯苯(TFMB)以溶解其。隨後,向其中緩慢添加0.006莫耳2,2'-雙(3,4-二羧基苯基)六氟丙烷二酐(6-FDA),且攪拌混合物1小時。隨後,添加0.15莫耳異酞醯氯(IPC),隨後攪拌1小時。且添加0.0044莫耳對酞醯氯(TPC),隨後攪拌1小時,藉此製備聚合物溶液。其後,將以聚醯胺系聚合物之總重量計500 ppm之二氧化矽(平均粒徑:100 nm至150 nm)作為消光劑添加至由此製備之聚合物溶液中,將其攪拌。A 1-liter glass reactor equipped with a temperature-controlled double jacket was fed with 779.1 g of dimethylacetamide (DMAc) as organic solvent at 20° C. under nitrogen atmosphere. Subsequently, 0.2 mol of 2,2'-bis(trifluoromethyl)-4,4'-diaminobiphenyl (TFMB) was slowly added thereto to dissolve it. Subsequently, 0.006 mol of 2,2'-bis(3,4-dicarboxyphenyl)hexafluoropropane dianhydride (6-FDA) was slowly added thereto, and the mixture was stirred for 1 hour. Subsequently, 0.15 mole of isophthalocyanate chloride (IPC) was added, followed by stirring for 1 hour. And 0.0044 moles of paraphthalyl chloride (TPC) was added, followed by stirring for 1 hour, thereby preparing a polymer solution. Thereafter, 500 ppm of silica (average particle diameter: 100 nm to 150 nm) based on the total weight of the polyamide-based polymer was added as a matting agent to the thus prepared polymer solution, and the mixture was stirred.

將由此獲得之聚合物溶液塗佈至玻璃板上,且隨後在80℃下用熱空氣乾燥30分鐘。其自玻璃板剝離,固定至銷框架,且用熱空氣以2℃/min之溫度升高速率在80℃至300℃之溫度範圍內熱處理,以獲得厚度為50 µm之聚醯胺系薄膜(或基底薄膜)。The polymer solution thus obtained was applied to a glass plate, and then dried with hot air at 80° C. for 30 minutes. It is peeled off from the glass plate, fixed to the pin frame, and heat-treated with hot air at a temperature increase rate of 2°C/min in the temperature range of 80°C to 300°C to obtain a polyamide-based film with a thickness of 50 µm ( or base film).

TFMB、6-FDA、IPC以及TPC的含量,以100莫耳二胺化合物計的二酐化合物以及二羰基化合物的莫耳數展示於表1中。The contents of TFMB, 6-FDA, IPC and TPC, the moles of the dianhydride compound and the dicarbonyl compound based on 100 moles of the diamine compound are shown in Table 1.

硬塗層形成於由此製備之基底薄膜之一側上。為了形成硬塗層,54.32重量份胺基甲酸酯丙烯酸酯寡聚物(PU2050,Miwon Specialty Chemical)、23.28重量份多官能丙烯酸酯單體(M300,Miwon Specialty Chemical)、19.4重量份其中精細二氧化矽粒子(平均粒徑:10 nm至15 nm)以30重量%分散於甲醇中的二氧化矽溶膠(MA-ST,Nissan Chemical)及3重量份光引發劑(I-184,BASF)用攪拌器混配以製備用於形成硬塗層之組合物。A hard coat layer is formed on one side of the base film thus prepared. In order to form the hard coat layer, 54.32 parts by weight of urethane acrylate oligomer (PU2050, Miwon Specialty Chemical), 23.28 parts by weight of multifunctional acrylate monomer (M300, Miwon Specialty Chemical), 19.4 parts by weight of fine diamine Silica particles (average particle size: 10 nm to 15 nm) are dispersed in 30% by weight of silica sol (MA-ST, Nissan Chemical) in methanol and 3 parts by weight of photoinitiator (I-184, BASF). Mix with a mixer to prepare the composition for forming the hard coat layer.

其後,按100重量份用於形成硬塗層之組合物之固體含量計,向其中添加100重量份作為溶劑之甲基異丁基酮,將其攪拌且隨後藉由模塗法塗覆於所製備聚醯胺系薄膜(或基底薄膜)之一側。其後,其在80℃下穿過乾燥腔室以乾燥溶劑約1分鐘,且隨後藉由1,000 mJ/cm 2光劑量之高壓汞燈之紫外線照射來固化,由此形成厚度為5 μm之塗佈薄膜。因此,製備包含基底薄膜及硬塗層(或功能層)之聚醯胺系複合薄膜。另外,以功能層之總重量計的所製備之複合薄膜中所存在之二氧化矽的含量(ppm)展示於表1中。 實例2 至5 及比較實例1 及2 Thereafter, 100 parts by weight of methyl isobutyl ketone as a solvent based on 100 parts by weight of the solid content of the composition for forming the hard coat layer was added thereto, stirred and then coated by a die coating method. One side of the prepared polyamide film (or base film). Thereafter, it passed through a drying chamber at 80°C to dry the solvent for about 1 minute, and was subsequently cured by ultraviolet irradiation of a high-pressure mercury lamp with a light dose of 1,000 mJ/cm, thereby forming a coating with a thickness of 5 μm. cloth film. Therefore, a polyamide-based composite film including a base film and a hard coating layer (or functional layer) is prepared. In addition, the content (ppm) of silica present in the prepared composite film based on the total weight of the functional layer is shown in Table 1. Examples 2 to 5 and Comparative Examples 1 and 2

薄膜以如實例1相同方式製備,不同之處在於反應物含量及其類似者如下表1中所示變化。 <評價實例> Films were prepared in the same manner as in Example 1 except that the reactant contents and the like were varied as shown in Table 1 below. <Evaluation examples>

實例1至5及比較實例1及2中製備之基底薄膜及聚醯胺系複合薄膜以及習知玻璃(參考實例)各自量測及評價以下特性。下表1中示出結果。 評價實例 1 :薄膜厚度量測 The following characteristics were measured and evaluated for the base film, the polyamide-based composite film prepared in Examples 1 to 5 and Comparative Examples 1 and 2, and the conventional glass (reference example). The results are shown in Table 1 below. Evaluation example 1 : Film thickness measurement

厚度使用Mitutoyo公司製造之數位測微器547-401在橫向方向上5點量測。采其平均值作為厚度。 評價實例 2 :透射率及混濁度量測 The thickness is measured at 5 points in the transverse direction using a digital micrometer 547-401 manufactured by Mitutoyo Corporation. The average value is used as the thickness. Evaluation Example 2 : Transmittance and turbidity measurement

透光率及混濁度使用Nippon Denshoku Kogyo製造之混濁度儀NDH-5000W根據JIS K 7105標準量測。 評價實例3 黃色指數量測 The transmittance and turbidity were measured according to the JIS K 7105 standard using a turbidity meter NDH-5000W manufactured by Nippon Denshoku Kogyo. Evaluation Example 3 : Yellow Index Measurement

黃色指數(YI)用分光光度計(UltraScan PRO,Hunter Associates Laboratory)在d65及10°條件下根據ASTM-E313標準量測。 評價實例4 表面硬度量測 Yellowness index (YI) was measured according to ASTM-E313 standard using a spectrophotometer (UltraScan PRO, Hunter Associates Laboratory) under conditions of d65 and 10°. Evaluation example 4 : Surface hardness measurement

鉛筆硬度使用Kipae ENT鉛筆硬度測試儀及Mitsubishi Japan耐壓高密度鉛筆(Pressure-Proofed Hi-Density Lead Pencil)來量測。Pencil hardness is measured using Kipae ENT pencil hardness tester and Mitsubishi Japan Pressure-Proofed Hi-Density Lead Pencil.

特定言之,製備聚醯胺系複合薄膜之後,量測與接觸基底薄膜之側相對定位的功能層之一側的表面硬度。其固定於鉛筆硬度測試儀的玻璃基板,以使得功能層面朝上,Mitsubishi鉛筆以相對於功能層表面45°角安裝,功能層表面在750 g負荷下刮擦5次,且觀測存在或不存在刮擦痕跡來確定硬度。 評價實例 5 :捲曲評價 Specifically, after preparing the polyamide-based composite film, the surface hardness of one side of the functional layer positioned opposite to the side in contact with the base film is measured. It is fixed on the glass substrate of the pencil hardness tester so that the functional layer faces upward. The Mitsubishi pencil is installed at an angle of 45° relative to the surface of the functional layer. The surface of the functional layer is scratched 5 times under a load of 750 g, and the presence or absence is observed. Scratch marks to determine hardness. Evaluation example 5 : Curl evaluation

實例及比較實例的聚醯胺系複合薄膜各自切分為10 cm×10 cm之尺寸,將其置放於玻璃板上以使得基底薄膜與玻璃板接觸(亦即,功能層面朝上),且在25℃下及50% RH下量測與玻璃板之4個角相距之高度。獲得其平均值。 評價實例6 :表面粗糙度量測 The polyamide-based composite films of the Examples and Comparative Examples were each cut into sizes of 10 cm × 10 cm, and placed on a glass plate so that the base film was in contact with the glass plate (that is, the functional layer faced upward), and Measure the height from the four corners of the glass plate at 25°C and 50% RH. Get its average value. Evaluation Example 6 : Surface roughness measurement

表面粗糙度使用原子力顯微法(AFM)設備量測。Surface roughness was measured using atomic force microscopy (AFM) equipment.

特定言之,使用Park Systems的型號XE-150,且條件係1.0 Hz,掃描面積20 µm×20 µm,及非接觸式懸臂支架PPP-NCHR 10M。製備聚醯胺系複合薄膜之後,量測與接觸基底薄膜之側相對定位的功能層之一側的表面粗糙度。 評價實例 7 :光澤度量測 Specifically, a Park Systems model XE-150 was used, and the conditions were 1.0 Hz, a scanning area of 20 µm × 20 µm, and a non-contact cantilever PPP-NCHR 10M. After the polyamide-based composite film is prepared, the surface roughness of one side of the functional layer positioned relative to the side in contact with the base film is measured. Evaluation Example 7 : Glossiness Measurement

根據JIS Z 8741-1997標準,使用VG-7000設備針對20 mm×60 mm×50 μm之薄膜樣品來量測光澤度,其中入射角及光接收角相同。入射角為20°、60°及85°。According to the JIS Z 8741-1997 standard, the VG-7000 equipment is used to measure the glossiness of a film sample of 20 mm×60 mm×50 μm, where the incident angle and light acceptance angle are the same. The angles of incidence are 20°, 60° and 85°.

特定言之,在製備聚醯胺系複合薄膜之後,使功能層與光澤度儀之量測單元接觸,且隨後量測聚醯胺系複合薄膜之光澤度。 [表1]     實例1 實例2 實例3 實例4 實例5 比較實例1 比較實例2 基底薄膜的組成及厚度 二胺 TFMB 100 TFMB 100 TFMB 100 TFMB 100 TFMB 100 TFMB 100 TFMB 100 二酐 6FDA 3 6FDA 3 6FDA 3 6FDA 3 6FDA 3 6FDA 3 6FDA 3 二羰基化合物 IPC 75 TPC 22 IPC 75 TPC 22 IPC 75 TPC 22 IPC 75 TPC 22 IPC 75 TPC 22 IPC 75 TPC 22 IPC 75 TPC 22 消光劑 二氧化矽500 ppm 二氧化矽500 ppm 二氧化矽500 ppm 二氧化矽500 ppm 二氧化矽500 ppm 二氧化矽50 ppm 二氧化矽50 ppm 厚度(µm) 50 50 50 50 50 50 50 功能層的組成及厚度 A:PU2050 (7) + M300 (3) 80 70 60 50 40 100 90 B:MA-ST (二氧化矽溶膠) 20 30 40 50 60 0 10 厚度(µm) 5 5 5 5 5 5 5 二氧化矽含量(ppm) 70,000 114,000 167,000 231,000 310,000 0 32,000 - 關於功能層組成中之A,PU2050及M300以7:3重量比混合。 - 關於功能層組成,A及B以表1中所示之重量比混合。 - 二氧化矽含量係指以功能層之總重量計含有的含量(ppm)。 [表2]   實例1 實例2 實例3 實例4 實例5 比較實例1 比較實例2 參考實例 玻璃 基底薄膜特性 混濁度(%) 0.40 0.40 0.40 0.40 0.40 0.47 0.47   透射率(%) 89.1 89.1 89.1 89.1 89.1 89.1 89.1   黃色指數 2.95 2.95 2.95 2.95 2.95 2.65 2.65   聚醯胺系複合薄膜特性 透射率(%) 91.82 91.96 92.01 91.54 91.72 92.04 91.93 92.0 混濁度(%) 0.42 0.40 0.41 0.39 0.42 0.38 0.41 0.51 表面硬度 5H 5H 6H 6H 7H 4H 4H - 捲曲評價 4 mm 5 mm 7 mm 10 mm 15 mm 2 mm 3 mm - 表面粗糙度(Ra) (µm) 0.03 0.04 0.04 0.05 0.06 0.03 0.03 0.01 GL 20 109 107 102 98 91 131 123 97.2 GL 60 162 160 159 155 149 167 163 97.7 GL 85 117 117 117 116 116 118 118 100 GL AVG 129.3 128 126 123 118.7 138.7 134.7 98.3 光澤度控制值 8 10 15 18 25 -13 -5 2.8 Specifically, after preparing the polyamide composite film, the functional layer is brought into contact with the measurement unit of the gloss meter, and then the gloss of the polyamide composite film is measured. [Table 1] Example 1 Example 2 Example 3 Example 4 Example 5 Comparison example 1 Comparison example 2 The composition and thickness of the base film Diamine TFMB 100 TFMB 100 TFMB 100 TFMB 100 TFMB 100 TFMB 100 TFMB 100 dianhydride 6FDA 3 6FDA 3 6FDA 3 6FDA 3 6FDA 3 6FDA 3 6FDA 3 dicarbonyl compounds IPC 75 TPC 22 IPC 75 TPC 22 IPC 75 TPC 22 IPC 75 TPC 22 IPC 75 TPC 22 IPC 75 TPC 22 IPC 75 TPC 22 matting agent Silica 500 ppm Silica 500 ppm Silica 500 ppm Silica 500 ppm Silica 500 ppm Silica 50 ppm Silica 50 ppm Thickness(µm) 50 50 50 50 50 50 50 Composition and thickness of functional layer A: PU2050 (7) + M300 (3) 80 70 60 50 40 100 90 B: MA-ST (silica sol) 20 30 40 50 60 0 10 Thickness(µm) 5 5 5 5 5 5 5 Silica content (ppm) 70,000 114,000 167,000 231,000 310,000 0 32,000 - Regarding A in the functional layer composition, PU2050 and M300 are mixed in a weight ratio of 7:3. - Regarding the composition of the functional layer, A and B are mixed in the weight ratio shown in Table 1. - Silica content refers to the content based on the total weight of the functional layer (ppm). [Table 2] Example 1 Example 2 Example 3 Example 4 Example 5 Comparison example 1 Comparison example 2 Reference example glass Base film properties Turbidity (%) 0.40 0.40 0.40 0.40 0.40 0.47 0.47 Transmittance(%) 89.1 89.1 89.1 89.1 89.1 89.1 89.1 yellow index 2.95 2.95 2.95 2.95 2.95 2.65 2.65 Characteristics of polyamide composite films Transmittance(%) 91.82 91.96 92.01 91.54 91.72 92.04 91.93 92.0 Turbidity (%) 0.42 0.40 0.41 0.39 0.42 0.38 0.41 0.51 Surface hardness 5H 5H 6H 6H 7H 4H 4H - Curly review 4mm 5mm 7mm 10mm 15mm 2mm 3mm - Surface roughness (Ra) (µm) 0.03 0.04 0.04 0.05 0.06 0.03 0.03 0.01 GL 20 109 107 102 98 91 131 123 97.2 GL 60 162 160 159 155 149 167 163 97.7 GL 85 117 117 117 116 116 118 118 100 GLAVG 129.3 128 126 123 118.7 138.7 134.7 98.3 Glossiness control value 8 10 15 18 25 -13 -5 2.8

如自上表1及2可見,實例1至5的聚醯胺系複合薄膜滿足0或更大之光澤度控制值。因此,其在廣視角(亦即85°入射角)下產生隱私保護效果,因為其展現與習知聚醯胺系薄膜的光澤度無顯著差異之光澤度位準。其在主視角(亦即20°入射角)下展現類似於玻璃之光澤度之光澤度位準。因此,有可能增強可見度且實現類似於玻璃之美觀性感覺。As can be seen from Tables 1 and 2 above, the polyamide-based composite films of Examples 1 to 5 satisfy a gloss control value of 0 or greater. Therefore, it produces a privacy protection effect under a wide viewing angle (that is, an incident angle of 85°) because it exhibits a gloss level that is not significantly different from the gloss of conventional polyamide-based films. It exhibits a gloss level similar to that of glass at the principal viewing angle (ie, 20° incident angle). Therefore, it is possible to enhance visibility and achieve an aesthetic feel similar to glass.

因此,實例1至5的聚醯胺系複合薄膜維持側面觀察之習知可見度,由此保護隱私,同時自主視角觀察時降低光澤度以增加可見度。因此,其容易地適用於顯示裝置之覆蓋窗及顯示裝置。Therefore, the polyamide-based composite films of Examples 1 to 5 maintain the conventional visibility when viewed from the side, thereby protecting privacy, while reducing the gloss when viewed from an independent viewing angle to increase visibility. Therefore, it is easily applicable to the cover window of the display device and the display device.

此外,根據實例之聚醯胺系複合薄膜展示捲曲評價中15 mm或更小之四角平均高度,及5H或更高之表面硬度,指示極佳捲曲特徵及機械特性。In addition, the polyamide-based composite film according to the Example exhibits an average height of four corners of 15 mm or less and a surface hardness of 5H or higher in the curl evaluation, indicating excellent curl characteristics and mechanical properties.

此外,根據實例之聚醯胺系複合薄膜在基底薄膜中含有特定量之具有特定粒度的消光劑,其增加基底薄膜表面積,由此使得易於塗佈形成功能層之組合物。此外,由於基底薄膜及功能層相容性極佳,有可能實現具有增強之耐久性,諸如脫離抗性的聚醯胺系複合薄膜。In addition, the polyamide-based composite film according to the example contains a specific amount of a matting agent with a specific particle size in the base film, which increases the surface area of the base film, thereby making it easy to coat the composition forming the functional layer. In addition, due to the excellent compatibility between the base film and the functional layer, it is possible to realize a polyamide-based composite film with enhanced durability, such as detachment resistance.

相比之下,自光澤度之角度來看,比較實例1及2之聚醯胺系複合薄膜具有尤其高的20°下之光澤度值。當薄膜自主視角觀察時,光重度反射,造成可見度不良及眼疲勞。因此,其不適用作玻璃之替代薄膜。In contrast, from the perspective of gloss, the polyamide composite films of Comparative Examples 1 and 2 have particularly high gloss values at 20°. When the film is viewed from an independent viewing angle, light is heavily reflected, causing poor visibility and eye fatigue. Therefore, it is not suitable for use as a replacement film for glass.

10:聚合設備 20:槽 30:帶 40:熱固裝置 50:捲繞器 100:基底薄膜 101:第一側 102:第二側 200:功能層 300:聚醯胺系複合薄膜 400:顯示單元 500:黏接層 10: Aggregation equipment 20:Slot 30:bring 40: Heat setting device 50:winder 100: Base film 101: First side 102: Second side 200: Functional layer 300:Polyamide composite film 400: Display unit 500: Adhesive layer

圖1為根據實施例之顯示裝置之橫截面視圖。 圖2為製備根據實施例的基底薄膜之製程的示意性流程圖。 圖3示意地示出用於製備根據實施例的基底薄膜的製程設施。 1 is a cross-sectional view of a display device according to an embodiment. FIG. 2 is a schematic flow chart of a process for preparing a base film according to an embodiment. Figure 3 schematically shows a process facility for preparing a base film according to an embodiment.

100:基底薄膜 100: Base film

101:第一側 101: First side

102:第二側 102: Second side

200:功能層 200: Functional layer

300:聚醯胺系複合薄膜 300:Polyamide composite film

400:顯示單元 400: Display unit

500:黏接層 500: Adhesive layer

Claims (10)

一種聚醯胺系複合薄膜,其包含包括一聚醯胺系聚合物之一基底薄膜;及安置於該基底薄膜上之一功能層,其中該基底薄膜進一步包含一消光劑,以該聚醯胺系聚合物之總重量計,該消光劑之含量為100至3,000ppm,且該消光劑具有10nm至1,000nm之一平均粒徑,其中根據以下方程式1之該聚醯胺系複合薄膜之一光澤度控制值為0或更大:[方程式1]光澤度控制值=85°下之光澤度(GL85)-20°下之光澤度(GL20)在方程式1中,該85°下之光澤度(GL85)為根據JIS Z 8741-1997標準利用該聚醯胺系複合薄膜以85°之一入射角量測之光澤度,且該20°下之光澤度(GL20)為根據該JIS Z 8741-1997標準利用該聚醯胺系複合薄膜以20°之一入射角量測之光澤度,以及其中該20°下之光澤度(GL20)為80至120。 A polyamide-based composite film, which includes a base film including a polyamide-based polymer; and a functional layer disposed on the base film, wherein the base film further includes a matting agent. Based on the total weight of the polymer, the content of the matting agent is 100 to 3,000 ppm, and the matting agent has an average particle size of 10 nm to 1,000 nm, wherein the gloss of the polyamide composite film according to the following equation 1 The gloss control value is 0 or greater: [Equation 1] Gloss control value = gloss at 85° (GL 85 ) - gloss at 20° (GL 20 ). In equation 1, the gloss at 85° The glossiness (GL 85 ) is measured according to the JIS Z 8741-1997 standard using the polyamide composite film at an incident angle of 85°, and the glossiness (GL 20 ) at 20° is measured according to the JIS The Z 8741-1997 standard uses the gloss of the polyamide composite film measured at an incident angle of 20°, and the gloss (GL 20 ) at 20° is 80 to 120. 如請求項1之聚醯胺系複合薄膜,其中該85°下之光澤度(GL85)為90至117。 As claimed in claim 1, the polyamide composite film has a glossiness (GL 85 ) of 90 to 117 at 85°. 如請求項1之聚醯胺系複合薄膜,其具有90至130之一平均光澤度(GLAVG),該平均光澤度為該20°下之光澤度(GL20)、一60°下之光澤度(GL60)及該85°下之光澤度(GL85)之一平均值,其中該60°下之光澤度(GL60)為根據該JIS Z 8741-1997標準利用該聚醯胺系複合薄膜以60°之一入射角量測之光澤度。 For example, the polyamide composite film of claim 1 has an average gloss (GL AVG ) of 90 to 130, and the average gloss is the gloss at 20° (GL 20 ) and the gloss at 60°. The average value of the glossiness (GL 60 ) and the glossiness (GL 85 ) at 85°, where the glossiness (GL 60 ) at 60° is determined by using the polyamide-based composite according to the JIS Z 8741-1997 standard. Glossiness of the film measured at an incident angle of 60°. 如請求項1之聚醯胺系複合薄膜,其中與接觸該基底薄膜之側相對定位的該功能層之一側的一表面硬度為5H或更高。 The polyamide composite film of claim 1, wherein a surface hardness of one side of the functional layer positioned opposite to the side contacting the base film is 5H or higher. 如請求項1之聚醯胺系複合薄膜,其中與接觸該基底薄膜之側相對定位的該功能層之一側的一表面粗糙度(Ra)為0.06μm或更低。 The polyamide-based composite film of claim 1, wherein a surface roughness (Ra) of one side of the functional layer positioned opposite to the side contacting the base film is 0.06 μm or less. 如請求項1之聚醯胺系複合薄膜,其中該消光劑為選自由以下組成之群的至少一者:二氧化矽、聚(甲基丙烯酸甲酯)(PMMA)、聚(甲基丙烯酸丁酯)(PBMA)、聚苯乙烯(PS)、三聚氰胺、聚矽氧、硫酸鋇及玻璃。 The polyamide composite film of claim 1, wherein the matting agent is at least one selected from the group consisting of: silicon dioxide, poly(methyl methacrylate) (PMMA), poly(butyl methacrylate) ester) (PBMA), polystyrene (PS), melamine, polysiloxane, barium sulfate and glass. 如請求項1之聚醯胺系複合薄膜,其中該聚醯胺系聚合物包含0:100至50:50之一莫耳比的由下式A表示之一重複單元及由下式B表示之一重複單元:
Figure 110130717-A0305-02-0051-1
Figure 110130717-A0305-02-0051-2
其中E及J各自獨立地選自一經取代或未經取代之二價C6-C30脂族環基、一經取代或未經取代之二價C4-C30雜脂族環基、一經取代或未經取代之二價C6-C30芳族環基、一經取代或未經取代之二價C4-C30雜芳族環基、一經取代或未經取代之C1-C30伸烷基、一經取代或未經取代之C2-C30伸烯基、一經取代或未經取代之C2-C30伸炔基、-O-、-S-、-C(=O)-、-CH(OH)-、-S(=O)2-、-Si(CH3)2-、-C(CH3)2-及-C(CF3)2-, e及j各自獨立地選自1至5之整數,當e為2或更大時,則二個或更多個E彼此相同或不同,當j為2或更大時,則二個或更多個J彼此相同或不同,G為選自以下之一基團:一經取代或未經取代之四價C6-C30脂族環基、一經取代或未經取代之四價C4-C30雜脂族環基、一經取代或未經取代之四價C6-C30芳族環基或一經取代或未經取代之四價C4-C30雜芳族環基,其中該脂族環基、該雜脂族環基、該芳族環基或該雜芳族環基單獨存在,彼此稠合以形成一稠環,或藉由選自以下之一鍵結基團鍵結:一經取代或未經取代之C1-C30伸烷基、一經取代或未經取代之C2-C30伸烯基、一經取代或未經取代之C2-C30伸炔基、-O-、-S-、-C(=O)-、-CH(OH)-、-S(=O)2-、-Si(CH3)2-、-C(CH3)2-及-C(CF3)2-。
Such as the polyamide composite film of claim 1, wherein the polyamide polymer includes a repeating unit represented by the following formula A and a molar ratio of 0:100 to 50:50 represented by the following formula B A repeating unit:
Figure 110130717-A0305-02-0051-1
Figure 110130717-A0305-02-0051-2
Wherein E and J are each independently selected from a substituted or unsubstituted divalent C 6 -C 30 aliphatic cyclic group, a substituted or unsubstituted divalent C 4 -C 30 heteroaliphatic cyclic group, a substituted Or an unsubstituted divalent C 6 -C 30 aromatic ring group, a substituted or unsubstituted divalent C 4 -C 30 heteroaromatic ring group, a substituted or unsubstituted C 1 -C 30 extension Alkyl, substituted or unsubstituted C 2 -C 30 alkenyl, substituted or unsubstituted C 2 -C 30 alkynyl, -O-, -S-, -C(=O)- , -CH(OH)-, -S(=O) 2 -, -Si(CH 3 ) 2 -, -C(CH 3 ) 2 - and -C(CF 3 ) 2 -, e and j independently An integer selected from 1 to 5. When e is 2 or greater, then two or more E are the same or different from each other. When j is 2 or greater, then two or more J are the same as or different from each other. Differently, G is one of the following groups: a substituted or unsubstituted tetravalent C 6 -C 30 aliphatic cyclic group, a substituted or unsubstituted tetravalent C 4 -C 30 heteroaliphatic cyclic group , a substituted or unsubstituted tetravalent C 6 -C 30 aromatic ring group or a substituted or unsubstituted tetravalent C 4 -C 30 heteroaromatic ring group, wherein the aliphatic ring group, the heteroaliphatic The aromatic ring group, the aromatic ring group or the heteroaromatic ring group exist alone, are fused with each other to form a fused ring, or are bonded by a bonding group selected from the following: substituted or unsubstituted C 1 -C 30 alkylene group, substituted or unsubstituted C 2 -C 30 alkenyl group, substituted or unsubstituted C 2 -C 30 alkynylene group, -O-, -S-, - C(=O)-, -CH(OH)-, -S(=O) 2 -, -Si(CH 3 ) 2 -, -C(CH 3 ) 2 -, and -C(CF 3 ) 2 -.
如請求項1之聚醯胺系複合薄膜,其中該功能層進一步包含一填充劑,以該功能層之總重量計,該填充劑之含量為50,000ppm至400,000ppm,且該填充劑具有5nm至100nm之一平均粒徑。 The polyamide composite film of claim 1, wherein the functional layer further includes a filler, the content of the filler is 50,000 ppm to 400,000 ppm based on the total weight of the functional layer, and the filler has a thickness of 5 nm to 400,000 ppm. The average particle size is one of 100nm. 如請求項1之聚醯胺系複合薄膜,其具有1%或更小之一混濁度及80%或更大之一透射率。 For example, the polyamide composite film of claim 1 has a haze of 1% or less and a transmittance of 80% or more. 一種顯示裝置,其包含一顯示單元;及安置於該顯示單元上之一聚醯胺系複合薄膜,其中該聚醯胺系複合薄膜包含包括一聚醯胺系聚合物之一基底薄膜;及安置於該基底薄膜上之一功能層,該基底薄膜進一步包含一消光劑,以該聚醯胺系聚合物之總重量計,該消光劑之含量為100至3,000ppm,且該消光劑具有10nm至1,000nm之一平均粒徑,以及根據以下方程式1之該聚醯胺系複合薄膜之一光澤度控制值為0或更大:[方程式1] 光澤度控制值=85°下之光澤度(GL85)-20°下之光澤度(GL20)在方程式1中,該85°下之光澤度(GL85)為根據JIS Z 8741-1997標準利用該聚醯胺系複合薄膜以85°之一入射角量測之光澤度,且該20°下之光澤度(GL20)為根據該JIS Z 8741-1997標準利用該聚醯胺系複合薄膜以20°之一入射角量測之光澤度,以及其中該20°下之光澤度(GL20)為80至120。 A display device, which includes a display unit; and a polyamide-based composite film placed on the display unit, wherein the polyamide-based composite film includes a base film including a polyamide-based polymer; and placed On a functional layer on the base film, the base film further includes a matting agent, the content of the matting agent is 100 to 3,000 ppm based on the total weight of the polyamide polymer, and the matting agent has a thickness of 10 nm to The average particle diameter is 1,000 nm, and the gloss control value of the polyamide-based composite film according to the following equation 1 is 0 or greater: [Equation 1] Gloss control value = gloss at 85° (GL 85 )-Glossiness at 20° (GL 20 ) In Equation 1, the glossiness at 85° (GL 85 ) is one of the values of the polyamide composite film at 85° according to the JIS Z 8741-1997 standard. The glossiness measured at an incident angle, and the glossiness at 20° (GL 20 ) is the glossiness measured at an incident angle of 20° using the polyamide composite film according to the JIS Z 8741-1997 standard, And wherein the gloss (GL 20 ) at 20° is 80 to 120.
TW110130717A 2020-09-04 2021-08-19 Polyamide-based composite film and display device comprising same TWI817180B (en)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
KR10-2020-0112924 2020-09-04
KR1020200112924A KR102594719B1 (en) 2020-09-04 2020-09-04 Polyamide-based composite film and display device comprising same

Publications (2)

Publication Number Publication Date
TW202212437A TW202212437A (en) 2022-04-01
TWI817180B true TWI817180B (en) 2023-10-01

Family

ID=80394630

Family Applications (1)

Application Number Title Priority Date Filing Date
TW110130717A TWI817180B (en) 2020-09-04 2021-08-19 Polyamide-based composite film and display device comprising same

Country Status (5)

Country Link
US (1) US11840611B2 (en)
JP (1) JP7257464B2 (en)
KR (1) KR102594719B1 (en)
CN (1) CN114133610B (en)
TW (1) TWI817180B (en)

Families Citing this family (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
KR102647432B1 (en) * 2021-05-28 2024-03-14 에스케이마이크로웍스솔루션즈 주식회사 Polyamide-based composite film and display device comprising same
CN117327345B (en) * 2023-09-11 2024-08-27 深圳市汉斯顿净水设备有限公司 Reinforcing material for integrated waterway plate of water purifier and preparation method thereof

Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2004264716A (en) * 2003-03-04 2004-09-24 Toppan Printing Co Ltd Anti-glare film for reflection display and reflection display using same
JP2008216330A (en) * 2007-02-28 2008-09-18 Lintec Corp Antiglare hard coat film
CN107976830A (en) * 2016-10-21 2018-05-01 三星电子株式会社 Plastic base and the display device for including it

Family Cites Families (16)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US20050227024A1 (en) * 2004-04-09 2005-10-13 Fuji Photo Film Co., Ltd. Image forming method and final medium to be transferred
KR20070094184A (en) * 2006-03-16 2007-09-20 동우 화인켐 주식회사 Hard coating film with high hardness, polarizing plate and display device having the same
US8541107B2 (en) * 2009-08-13 2013-09-24 E. I. Du Pont De Nemours And Company Pigmented polyimide films and methods relating thereto
RU2628598C2 (en) * 2011-08-31 2017-08-21 Авери Деннисон Корпорейшн Self-adhesive vinyl and a method of minimizing or eliminatng of printing defects in such vinyls
EP2977221B1 (en) * 2012-02-29 2020-02-19 Dai Nippon Printing Co., Ltd. Intermediate transfer medium
KR101839293B1 (en) 2017-04-04 2018-03-19 에스케이씨 주식회사 Colorless and transparent polyamide-imide flim and preparation method of the same
CN105885674B (en) 2016-05-23 2017-12-29 武汉理工大学 Inorganic nano SiO2The preparation method of/urethane acrylate composite transparent coating
US10370496B2 (en) 2016-08-11 2019-08-06 Sk Innovation Co., Ltd. Polyamic acid resin and polyamideimide film
KR101899902B1 (en) * 2016-08-23 2018-09-18 주식회사 대림코퍼레이션 Transparent polyimide precursor resin composition improving stability of resin and heat-resistance, method for manufacturing polyimide film using the same, and polyimide film thereof
US11125917B2 (en) * 2016-09-16 2021-09-21 Somar Corporation Light-shading material for optical device
KR102358065B1 (en) * 2016-10-11 2022-02-09 삼성에스디아이 주식회사 Composition for window film and flexible window film prepared using the same
KR101831884B1 (en) * 2017-02-08 2018-02-26 에스케이씨 주식회사 Polyamide-imide film
KR102036227B1 (en) * 2018-01-31 2019-10-24 에스케이씨 주식회사 Polyamide-imide film and preparation method thereof
KR102261849B1 (en) * 2018-02-06 2021-06-04 주식회사 엘지화학 Preparation method of polyamideimide copolymers
KR102301587B1 (en) * 2018-12-28 2021-09-13 에스케이씨 주식회사 Polyimide film and display device comprising the same
JP7382810B2 (en) * 2018-12-28 2023-11-17 住友化学株式会社 optical film

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2004264716A (en) * 2003-03-04 2004-09-24 Toppan Printing Co Ltd Anti-glare film for reflection display and reflection display using same
JP2008216330A (en) * 2007-02-28 2008-09-18 Lintec Corp Antiglare hard coat film
CN107976830A (en) * 2016-10-21 2018-05-01 三星电子株式会社 Plastic base and the display device for including it

Also Published As

Publication number Publication date
CN114133610A (en) 2022-03-04
TW202212437A (en) 2022-04-01
CN114133610B (en) 2024-03-01
KR20220031239A (en) 2022-03-11
US20220073689A1 (en) 2022-03-10
US11840611B2 (en) 2023-12-12
JP7257464B2 (en) 2023-04-13
JP2022044003A (en) 2022-03-16
KR102594719B1 (en) 2023-10-27

Similar Documents

Publication Publication Date Title
CN112390974B (en) Polyimide-based composite film and display device thereof
CN112457514B (en) Polyimide-based composite film and display device thereof
KR20210001834A (en) Polyamide-based film, preparation method thereof, and cover window and display device comprising same
TWI817180B (en) Polyamide-based composite film and display device comprising same
TWI832226B (en) Polyamide-based composite film and display device comprising the same
US12024605B2 (en) Polyamide-based composite film and display device comprising same
US20230097107A1 (en) Polyamide-imide-based film, preparation method thereof, and composite film and display device comprising the same
CN117363012A (en) Polyamide-based film, method for preparing same, cover window comprising same, and display device